1.Cephalometric analysis of craniofacial bone growth.
Seung Ha PARK ; Chun Eun CHUNG
Journal of the Korean Society of Plastic and Reconstructive Surgeons 1991;18(5):828-841
No abstract available.
Bone Development*
2.Cephalometric analysis of craniofacial bone growth.
Seung Ha PARK ; Chun Eun CHUNG
Journal of the Korean Society of Plastic and Reconstructive Surgeons 1991;18(5):828-841
No abstract available.
Bone Development*
3.Femoral Neck Anteversion and Neck Shaft Angles: Determination and their Clinical Implications in Fetuses of Different Gestational Ages
Souza AD ; Ankolekar VH ; Padmashali S ; Das A ; Souza ASD ; Hosapatna M
Malaysian Orthopaedic Journal 2015;9(2):33-36
Precise anatomical assessment of femoral neck anteversion
(FNA) and the neck shaft angles (NSA) would be essential in
diagnosing the pathological conditions involving hip joint
and its ligaments. The present study was undertaken on 48
fetal femurs to calculate the NSA and FNA in fetuses
digitally.
End on images of upper end of the femurs were taken for the
estimation of FNA and a photograph in a perpendicular plane
was taken to calculate the NSA. Microsoft Paint software
was used to mark the points and Image J software was used
to calculate the angles digitally.
The FNA ranged from 17.08º to 33.97 º on right and 17.32 º
to 45.08 º on left. The NSA ranged from 139.33 º to 124.91 º
on right and 143.98 º to 123.8 º on left. Unpaired t test
showed the FNA and NSA of femur did not vary
significantly during the third trimester.
Bone Development
;
Femur
4.Role of Osteal Macrophages in Bone Metabolism.
Journal of Pathology and Translational Medicine 2015;49(2):102-104
Macrophages have been shown to have pleiotropic functions in various pathophysiologies, especially in terms of anti-inflammatory and regenerative activity. Recently, the novel functions of bone marrow resident macrophages (called osteal macrophages) were intensively studied in bone development, remodeling and tissue repair processes. This review discusses the current evidence for a role of osteal macrophages in bone modeling, remodeling, and fracture healing processes.
Bone Development
;
Bone Marrow
;
Bone Remodeling
;
Fracture Healing
;
Macrophages*
;
Metabolism*
5.Condylar hyperplasia: An updated review of the literature.
Luis Eduardo ALMEIDA ; Joseph ZACHARIAS ; Sean PIERCE
The Korean Journal of Orthodontics 2015;45(6):333-340
Condylar hyperplasia (CH) is a rare disorder characterized by excessive bone growth that almost always presents unilaterally, resulting in facial asymmetry. Classification of the different types of CH can differ depending on the authors. Correct diagnosis is critical in determining the proper treatments and timing. This paper is a review of the recent literature on the epidemiology, etiology, diagnosis, classification, and surgical treatments of CH.
Bone Development
;
Classification
;
Diagnosis
;
Epidemiology
;
Facial Asymmetry
;
Growth and Development
;
Hyperplasia*
6.Bone graft material using teeth.
Journal of the Korean Association of Oral and Maxillofacial Surgeons 2012;38(3):134-138
Autogenous tooth bone graft material contains organic and inorganic components for osteoinductive and osteoconductive healing. The clinical availability and safety of this material have been confirmed by various experimental and clinical studies. In the future, allogenic and xenogenic tooth bone graft materials, ideal scaffold using teeth for stem cells and bone growth factors, and endodontic and tooth restorative material will be developed.
Bone Development
;
Stem Cells
;
Tooth
;
Transplants
7.A Study of Bone Marrow Density in Korean Children of Normal Growth and Development.
Byung Yoen KIM ; Young Guk KIM ; Young Jun KIM ; Kee Hwan YOO ; Joo Won LEE ; Soon Kyum KIM
Journal of the Korean Pediatric Society 1995;38(5):612-618
No abstract available.
Bone Marrow*
;
Child*
;
Growth and Development*
;
Humans
8.Reconstruction using mandibular horizontal distraction osteogenesis and implant prosthesis in mandibular deficiency: a case report.
Min Young SHIN ; Jun Hyun AN ; Jung Hwan HAN ; Sung Soo SHIN ; Yang Ho PARK ; Young Ju PARK ; Jun Woo PARK ; Gun Joo RHEE
Journal of the Korean Association of Oral and Maxillofacial Surgeons 2003;29(6):444-449
Distraction osteogenesis is a biologic process in which new bone is formed between bone fragments being separated by a tractional force. This technique has the advantage of initiating new bone growth without bone transplantation and promoting the growth of soft tissue. Mandibular distraction osteogenesis has shown to be effective to treat congenital or acquired mandibular hypoplasias. On the basis of positive results with implant-supported prostheses, the use of implants in the distracted site can significantly help stabilize the prosthesis. We obtained good result in the patient with mandibular deficiency due to trauma, who have been reconstructed with distraction osteogenesis and implant. We report our experiences with literature view.
Bone Development
;
Bone Transplantation
;
Humans
;
Osteogenesis, Distraction*
;
Prostheses and Implants*
;
Traction
9.Bone Growth after Free Vascularized Grafting of the Upper Radius including its Epiphysis in Puppies.
Yonsei Medical Journal 1986;27(4):283-291
The radius including the proximal epiphysis was transferred in puppies. Growth in the vascularized long bone grafts in growing animals was significantly greate than in the non-vascularized grafts, not equal to normal growth. In the non-vascularized grafts the epiphyses closed one month postoperatively, compared to 5 months in the vascularized grafts and 6 months in the normal controls. This data suggests that, in transplantation of growing bone, revascularization is essential to maximize continuing growth. This study is an initial step in the development of a technique for the transfer of a free vascularized growth plate. This information would be beneficial in predicting growth patterns of free vascularized bone transfers for growth disturbances, congenital anomalies and trauma in youth.
Animal
;
Bone Development*
;
Bone Transplantation*
;
Dogs
;
Epiphyses/surgery*
;
Radius/surgery*
10.Guided Bone Regeneration Of Calvarial Bone Defects Using Bioabsorbable Membrane And Demineralized Freeze Dried Bone In Rats.
Soo Min KIM ; Hwan Ho YEO ; Su Gwan KIM ; Sung Chul LIM
Journal of the Korean Association of Oral and Maxillofacial Surgeons 2002;28(4):290-301
The purpose of this study was to evaluate new bone formation and healing process in rat calvarial bone defects using BioMesh(R) membrane and DFDB. Forty eight rats divided equally into 4 groups of 1 control group and 3 experimental groups. Standardized transosseous circular calvarial defects (8 mm in diameter) were made midparietally. In the control group, the defect was only covered with the soft tissue flap. In the experimental group 1, it was filled with DFDB only, in the experimental group 2, it was covered BioMesh(R) membrane only, and in the experimental group 3, it was filled DFDB and covered with membrane. At the postoperative 1, 2, 4, 8 weeks, rats were sacrificed and histologic and histomorphometric analysis were performed. These results were as follows. In histomorphometric analysis, It showed the greatest amount of new bone formation through experimental in the experimental group 3 (P < 0.001). The amount of new bone formation at the central portion of the defect was greater in the experimental group 3 than experimental group 2. BioMesh(R) membrane began to resorb at 1 week and resorbed almost completely at 8 weeks after operation. The collapse of membrane into the defect was observed through the experimental periods in the experimental group 2. In the area of collapsed membrane, new bone formation was restricted. These results suggest that maintenance of some space for new bone to grow is required in the use of BioMesh(R) membrane alone in the defect. It is also thought that use of the membrane may promote new bone growth in DFDB graft.
Animals
;
Bone Development
;
Bone Regeneration*
;
Membranes*
;
Osteogenesis
;
Rats*
;
Skull
;
Transplants