1.Pharmacy in the Foreign Countires and Kroea's Reality.
Journal of the Korean Medical Association 2000;43(4):327-330
No abstract available.
Pharmacy*
2.Pharmacy in the Foreign Countires and Kroea's Reality.
Journal of the Korean Medical Association 2000;43(4):327-330
No abstract available.
Pharmacy*
4.Interventional Cardiology.
Jong Koo LEE ; Seung Jung PARK
Korean Circulation Journal 1991;21(2):167-175
No abstract available.
Cardiology*
5.Recent Advance in Antiepileptic.
Joong Koo KANG ; Myoung Jong LEE
Journal of the Korean Medical Association 1998;41(6):672-681
No abstract available.
7.Urinary Tract Stone in Patients with Spinal Cord Injury: A Retrospective Radiological Study.
Jong Koo LEE ; Eun Joo YUN ; Hyun Ja SHIN
Journal of the Korean Radiological Society 1995;32(1):165-168
PURPOSE: To compare the incidence between author's first and current report on urinary tract stone in patient with spinal cord injury and to evaluate the effectiveness of recent developed in medical technology and care on in treating the patients. MATERIALS AND METHODS: We reviewed urinary tract stone in 257 patients with paraplegia or quadriplegia after spinal cord injury. These patients were diagnosed retrospectively by KUB and intravenous urography at the Korea Veterans Hospital during 10years from January, 1984 to December, 1993. We evaluated and compared the overall incidence, incidence of specific location of urinary tract, recurrent rate, incidence according to the level of spinal cord injury, and the duration of development in urinary tract stone. RESULTS: Total patients were 257 with 186(72.4%) paraplegia and 71(27.6%)quadriplegia. Overall incidence of the stone was 16.0% in this study and 38.1% in the first study. Incidence of the stone in individual organ ;5.5% in kidney, 1.2% in ureter, and 13.6% in urinary bladder. The recurrent rate was 29.3% in this study and 40.6% in the first study. Incidence of the stone according to the level of spinal cord injury was as follows;15.6% in cervix, 17.1% in upper thorax, 17.9% in lower thorax and 13.9% in lumbar. The stone developed during the first 4 years and between 12 to 16 years following spinal cord injury was 28.3% each. CONCLUSION: Overall incidence and recurrent rate of urinary tract stone was obviously decreased since the first study. Highest incidence of the stone occurred in urinary bladder and in patient with lower thoracic spinal cord injury, which is similar to first report. Peak incidence of the stone was in the first 4years, and another peak was in 12-16years after spinal cord injury. The decreased overall incidence of urinary tract stone maybe attributable to the development in medical technology and care, and active rehabilitation.
Cervix Uteri
;
Female
;
Hospitals, Veterans
;
Humans
;
Incidence
;
Kidney
;
Korea
;
Paraplegia
;
Quadriplegia
;
Rehabilitation
;
Retrospective Studies*
;
Spinal Cord Injuries*
;
Spinal Cord*
;
Thorax
;
Ureter
;
Urinary Bladder
;
Urinary Calculi*
;
Urinary Tract*
;
Urography
8.Urinary Tract Stone in Patients with Spinal Cord Injury: A Retrospective Radiological Study.
Jong Koo LEE ; Eun Joo YUN ; Hyun Ja SHIN
Journal of the Korean Radiological Society 1995;32(1):165-168
PURPOSE: To compare the incidence between author's first and current report on urinary tract stone in patient with spinal cord injury and to evaluate the effectiveness of recent developed in medical technology and care on in treating the patients. MATERIALS AND METHODS: We reviewed urinary tract stone in 257 patients with paraplegia or quadriplegia after spinal cord injury. These patients were diagnosed retrospectively by KUB and intravenous urography at the Korea Veterans Hospital during 10years from January, 1984 to December, 1993. We evaluated and compared the overall incidence, incidence of specific location of urinary tract, recurrent rate, incidence according to the level of spinal cord injury, and the duration of development in urinary tract stone. RESULTS: Total patients were 257 with 186(72.4%) paraplegia and 71(27.6%)quadriplegia. Overall incidence of the stone was 16.0% in this study and 38.1% in the first study. Incidence of the stone in individual organ ;5.5% in kidney, 1.2% in ureter, and 13.6% in urinary bladder. The recurrent rate was 29.3% in this study and 40.6% in the first study. Incidence of the stone according to the level of spinal cord injury was as follows;15.6% in cervix, 17.1% in upper thorax, 17.9% in lower thorax and 13.9% in lumbar. The stone developed during the first 4 years and between 12 to 16 years following spinal cord injury was 28.3% each. CONCLUSION: Overall incidence and recurrent rate of urinary tract stone was obviously decreased since the first study. Highest incidence of the stone occurred in urinary bladder and in patient with lower thoracic spinal cord injury, which is similar to first report. Peak incidence of the stone was in the first 4years, and another peak was in 12-16years after spinal cord injury. The decreased overall incidence of urinary tract stone maybe attributable to the development in medical technology and care, and active rehabilitation.
Cervix Uteri
;
Female
;
Hospitals, Veterans
;
Humans
;
Incidence
;
Kidney
;
Korea
;
Paraplegia
;
Quadriplegia
;
Rehabilitation
;
Retrospective Studies*
;
Spinal Cord Injuries*
;
Spinal Cord*
;
Thorax
;
Ureter
;
Urinary Bladder
;
Urinary Calculi*
;
Urinary Tract*
;
Urography
9.Effects of Fresh and Degenerated Autogenous Nerve Graft in Segmental Defect of Sciatic Nerve of Rabbit.
Jong Beom PARK ; Moon Hong LEE ; Seung Koo RHEE
The Journal of the Korean Orthopaedic Association 1998;33(3):885-891
The potential for nerve regeneration and recovery of its function exists in the presence of a suitable pathway for regenerating axon and endoneurial tube can serve as nerve conduit for regenerating axon in fresh nerve graft. But value of degenerated nerve as donor nerve has not been established till now. This experiment assessed the chronologic influence of fresh and degenerated nerve graft on axonal growth for 10mm gap of sciatic nerve in rabbit and how long degenerated nerve was ahle to serve as a nerve conduit microscopically. Electromicroscopically, the regenerating axons which were ohserved in the degenerated nerve graft had more abundant unmyelinated fibers and revealed abundant collagen fibers in the endoneurium. And these regenerating axons became gradually surrounded with newly developed basal lamina and decreased the collagen fibers at l2 week of degenerated nerve graft. Histologically, myelinated axons which were observed in central area of the degenerated nerve graft at 8 week of degenerated nerve graft were relatively thinner, but a definite structural difference of regenerating axons was not found except reduction of number compared with those of tresh nerve graft. The numher of myelinated axons was 6,072+/-l42 in normal sciatic nerve, 4,479+/- 157 in fresh nerve graft group, and 2,968+/-168 in the degenerated nerve graft group. Difference of the number of myelinated axons between fresh and degenerated nerve graft group was significant stati stically(P<0.05). These results showed that the ability of a degenerated nerve graft as a passage for the regenerating axons and it can be employed as one of the favorable nerve conduits.
Axons
;
Basement Membrane
;
Collagen
;
Humans
;
Myelin Sheath
;
Nerve Regeneration
;
Peripheral Nerves
;
Sciatic Nerve*
;
Tissue Donors
;
Transplants*