• 제목/요약/키워드: Tissue growth

검색결과 2,348건 처리시간 0.028초

백서 구개의 외과적 결손부에 자가배양상피조직 이식 및 TGF-${\beta}_3$ 투여가 상악골의 성장에 미치는 영향 (MAXILLARY GROWTH FOLLOWING CULTURED EPIDERMAL TISSUE GRAFT AND THE ADMINISTRATION OF TGF-${\beta}_3$ ON SURGICALLY CREATED PALATAL DEFECTS IN RAT)

  • 박정현;최병호;강정완;육종인;김진;이충국
    • Journal of the Korean Association of Oral and Maxillofacial Surgeons
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    • 제26권6호
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    • pp.565-580
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    • 2000
  • This study was designed to evaluate the influence of cultured epidermal tissue graft and the administration of transforming growth factor(TGF)-${\beta}_3$ on maxillary growth in surgically created palatal defects. A total of 155 rats were divided into 2 groups according to surgical timing : postnatal 2 weeks(n=95), 4 weeks(n=40) and control(unoperated) group(n=20). The postnatal 2-week surgical group was subdivided into 3 groups according to repair methods: conventional surgery(Von Langenbeck technique)group(n=23); cultured tissue graft group(n=25); and full thickness skin graft group(n=25). Additionally, recombinant human TGF-${\beta}_3$ was administered(30ng or 150ng) on collagen matrix in surgically created palatal defects during surgery(9 conventional surgeries, 9 cultured tissue grafts) in 2-week-old rats. The results showed that all types of surgical treatment decreased maxillary growth compared with the control(unoperated) group(p<0.0001). On the other hand, the tissue graft group, whether cultured tissue or grafted skin, contributed to increased maxillary growth(p<0.0001).And exogenous TGF-${\beta}_3$ might play a role in connective tissue proliferation and new bone generation during wound healing on palatal defects. Our results suggest that grafting cultured epidermis with collagen matrix decreases the scar tension on maxillary growth more than conventional palatal surgery does. Therefore, exogenous TGF-${\beta}_3$ may contribute to accelerate wound healing on palatal defects.

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식물에 미치는 방사성 동위원소 $S^35$의 영향에 대하여 (제2보) 발아호밀의 생장 및 조섬호흡에 미치는 영향 (Effectsof absorbed radioactive sulfur $S^35$ in plant cell. II. Effects of sulfur on the growth and tissue respiration of rye seedlings)

  • 홍순우
    • Journal of Plant Biology
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    • 제8권1_2호
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    • pp.5-10
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    • 1965
  • The effect of radioactive sulfur-35 on the growth and tissue respiration in rye, Secale cereale L., seedlings were studied in this investigation. The growth and respiration rate of the materials treated with the different intensities of radioactivity, represented by the different concentration(${\mu}c$) of radioactive sulfur were shown similar effects in treated groups as those of Gamma-ray or X-ray irradiation on plant materials. However, in the groups of ($0.1{\mu}c$ and ($0.4{\mu}c$ S35-solution, the growth and respiration rate were stimulated somewhat more clearly than in case of control. And the higher concentration groups, $1.6{\mu}c$, $6.4{\mu}c$, and $25.6{\mu}c$ were depressed of the growth and tissue respiration rate. The present data could be explained on the basis that the higher concentration treatments with the radioactive isotope did produce injury to the plant metabolism generally, but the moderate treatment would stimulate to the plant growth and tissue respiration.

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성대 반흔에 대한 기초연구의 최신 경향 (Trend of Basic Research for Vocal Fold Scar)

  • 이병주
    • 대한후두음성언어의학회지
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    • 제23권1호
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    • pp.28-32
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    • 2012
  • Vocal fold scar disrupts structure of lamina propria and causes significant change in vocal fold tissue biomechanics, resulting in a range of voice problems that often significantly compromise patient quality of life. Although several therapeutic management have been offered in an attempt to improve vocal fold scar, the ideal treatment has not yet been found. Recently, several tissue engineering technique for vocal fold scar using growth factors, several cells, and scaffolds have been described in tissue culture and animal models. Several growth factors such as hepatocyte growth factor, basic fibroblast growth factor, and transforming growth factor beta 3 for therapy and prevention of vocal fold scar have been studied. Cell types to regenerate vocal folds in scarring tissue have been introduced autologous or scarred vocal fold fibroblast and adult mesenchymal stem cells. Decellularized organ matrix and several hyaluronic acid materials have used as scaffolds for vocal fold scar.

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한국인아동의 연조직측모의 성장변화에 관한 누년적 연구 (A LONGITUDINAL STUDY OF SOFT-TISSUE FACIAL PROFILE CHANGES IN KOREAN CHILDREN)

  • 정규림
    • 대한치과교정학회지
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    • 제19권1호
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    • pp.7-20
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    • 1989
  • A serial cephalometric study was undertaken to define the growth of the soft tissue facial profile in Korean children. The sample was composed of 25 males and 15 females for whom yearly cephalometric records were taken from the ages of 6 to 13 years. From the tracings, points on skeletal and soft tissue profiles were located and recorded on magnetic tape utilizing a Calcomp Talos RP660 X-Y digitizer. Linear and angular measurements of soft tissues were made directly from tape in a Cyber 174-16 computer after cephalometric enlargement had been corrected. A statistical evaluation was made of the data and the average profile diagrams in male and female were described by a Calcomp 960 pen plotter. On the basis of the findings of this study, the following trends were established. 1. The most prominent growth in soft tissue facial profile thickness was the nose and the least was the forehead. 2. The general growth direction of the soft facial tissue to the cranium described the downward and forward. 3. The degree of soft tissue facial convexity was decidely more than that exhibited earlier in life even though the soft tissue chin had protruded to the cranium. 4. The measurements indicated a general tendency for males to have larger nose and more convex and long soft tissue facial profile than did females. 5. Males showed significantly more growth than females in base of the upper lip and height of the upper anterior facial profile. 6. There was a difference between males and females in the rates of soft tissue facial profile growth. 7. Korean children showed less convex in the soft tissue profile convexity than did American children.

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Hippo Signaling Circuit and Divergent Tissue Growth in Mammalian Eye

  • Moon, Kyeong Hwan;Kim, Jin Woo
    • Molecules and Cells
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    • 제41권4호
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    • pp.257-263
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    • 2018
  • Vertebrate organ development is accompanied by demarcation of tissue compartments, which grow coordinately with their neighbors. Hence, perturbing the coordinative growth of neighboring tissue compartments frequently results in organ malformation. The growth of tissue compartments is regulated by multiple intercellular and intracellular signaling pathways, including the Hippo signaling pathway that limits the growth of various organs. In the optic neuroepithelial continuum, which is partitioned into the retina, retinal pigment epithelium (RPE) and ciliary margin (CM) during eye development, the Hippo signaling activity operates differentially, as it does in many tissues. In this review, we summarize recent studies that have explored the relationship between the Hippo signaling pathway and growth of optic neuroepithelial compartments. We will focus particularly on the roles of a tumor suppressor, neurofibromin 2 (NF2), whose expression is not only dependent on compartment-specific transcription factors, but is also subject to regulation by a Hippo-Yap feedback signaling circuit.

In Vitro내 유선조직에의 인위적인 온도 및 유방염 발생 미생물에 의한 환경스트레스 유기와 Adenosine, IGF-I 및 Prolactin에 의한 성장조절작용 (Artificial Induction of Environmental Mammary Stress by Temperature and Micro-organism Causing Mastitis and Modulation of Mammary Growth by Adenosine, IGF-I and Prolatin In Vitro)

  • 정석근;장병배;이창수;박춘근;홍병주;여인서
    • 한국가축번식학회지
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    • 제21권4호
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    • pp.325-333
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    • 1997
  • Recent evidence indicates that growth factors modulate response of mammary epithelial cells to environmental stress. The objective of this study was to examine the cellular and biochemical responses of mammary tissue to environmental stress caused by artificial mastitis. For experimental a, pp.oach, toxins of most mastitis causing organisms(Staph. aureus or Strep. agalactiae) and heat stress(42$^{\circ}C$) were artificially exposed to mammary tissue. Effects of these environmental stresses on cell growth, cell death and heat shock protein synthesis were examined. Lactating mammary tissure were cultured under basal medium(DMEM) su, pp.emented with insulin(10$\mu\textrm{g}$/ml) and aldosterone(1$\mu\textrm{g}$/ml). All treatment groups in heat stress at 42$^{\circ}C$ incubation significantly decreased DNA synthesis rates in comparison with those at 39$^{\circ}C$(P<0.05), however, these decreased DNAa synthesis rates were recovered by addition of adenosine(10$\mu$M) and IGFI(10ng/ml). Similar results were obtained when tissue growth rates were measured by DNA content/tissue. Strep. agalactiae toxin did not significantly decreased DNA content/tissue in comparison with no treatment of bacterial toxin with or without heat stress, however, tended to decrease DNA contents/tissue without heat stress. In the fluorography analysis, heat stress(42$^{\circ}C$ incubation) slightly increased 35S-methoionine labelled 70kd protein synthesis. These results indicate that environmental stress caused by artificial mastitis slightly decreased mammary growth or mammary size, however, these results could be recovered by addition of adenosine and IGF-I.

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Interaction of Bovine Growth Hormone with Buffalo Adipose Tissue and Identification of Signaling Molecules in Its Action

  • Sodhi, R.;Rajput, Y.S.
    • Asian-Australasian Journal of Animal Sciences
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    • 제20권7호
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    • pp.1030-1038
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    • 2007
  • Results on localization of growth hormone receptor (GHR), interaction of growth hormone (GH) with receptor in buffalo adipose tissue and identification of activated signaling molecules in the action of GH are presented. Bovine GH (bGH) was labeled with fluorescein or biotin. Fluorescein-labelled bGH was used for localization of GHRs in buffalo adipocytes. The receptors were present on the cell surface. The affinity of binding of GH to its receptor was determined by designing an experiment in which buffalo adipose tissue explants, biotinylated GH and streptavidin-peroxidase conjugate were employed. The affinity constant was calculated to be $2{\times}10^8M^{-1}$. The receptor density on adipose tissue was found to be 1 femto mole per mg of tissue. Signalling molecules generated in the action of GH were tentatively identified by employing Western blot and enhanced chemiluminescence techniques using anti-phosphotyrosine antibody. Based on molecular weights of proteins reactive to anti-phosphotyrosine antibody, three signaling molecules viz. insulin receptor substrate, Janus activated kinase (Jak) and mitogen activated protein were tentatively identified. These signaling molecules appeared in a time (incubation time of explants with growth hormone) dependent way. The activation of Jak2 was confirmed by employing anti-Jak2 antibody in a Western blot. The activation of Jak2 occurred during 5 min incubation of buffalo adipose tissue explants with GH and incubation for an additional period, viz. 30 min. or 60 min., resulted in a drastic reduction in activation. The results suggest that Jak2 activation is an early event in the action of GH in buffalo adipose tissue.

수종의 점막조정제간에 Candida albicans의 성장 양상 비교 (COMPARISON OF THE GROWTH OF CANDIDA ALBICANS AMONG THE TISSUE CONDITIONERS)

  • 정복영;강우진;정문규
    • 대한치과보철학회지
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    • 제33권3호
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    • pp.453-466
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    • 1995
  • The use of tissue conditioners has come into favor for preprosthetic treatment and the treatment of Denture stomatitis, but the major problem in the use of the tissue conditioner is the growth of C.albicans. To compare the growth of C.albicans according to the type and the wearing period of the tissue conditioner, three commercial tissue conditioners were relined to intraoral plates which were delivered to 14 smoking, 12 nonsmoking healthy men. Cultures were made from the conditioner surface at 2, 7, 14, 21 days after after intraoral placement. The frequency of positive culture and colony counts of C.albicans were measured by imprint culture technique. The following results were achieved : 1. The frequency of positive cluture had increased significantly for all materials used. 2. The frequency of positive culture had incresed significantly around 2,14 days for day for COE-Comfort, SR-Ivoseal. 3. There were no significant difference in the colony counts of C.albicans among the mate rials used. 4. There were an over-all increase with the wearing period of tissue conditioners and significant increase around 2, 7, 14 days for COE-Comfort, and 2, 14 days for SR-Ivoseal, viscogel in colony counts. 5. Smoking had no effect on the growth of C.albicans. That is, there were no difference among the materials used in the growth of C.albicans. In the clinical application of tissue conditioners, we should avoid a long term use of it, but in inevitable cases, special disinfection procedures should be considered.

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Delivery of growth factor-associated genes to mesenchymal stem cells for cartilage and bone tissue regeneration

  • Ahn, Jongchan;Park, Seah;Cha, Byung-Hyun;Kim, Jae Hwan;Park, Hansoo;Joung, Yoon Ki;Han, Inbo;Lee, Soo-Hong
    • Biomaterials and Biomechanics in Bioengineering
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    • 제1권3호
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    • pp.151-162
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    • 2014
  • Genetically-modified mesenchymal stem cells (GM-MSCs) have emerged as promising therapeutic tools for orthopedic degenerative diseases. GM-MSCs have been widely reported that they are able to increase bone and cartilage tissue regeneration not only by secreting transgene products such as growth factors in a long-term manner, also by inducing MSCs into tissue-specific cells. For example, MSCs modified with BMP-2 gene increased secretion of BMP-2 protein resulting in enhancement of bone regeneration, while MSCs with TGF-b gene did cartilage regeneration. In this review, we introduce several growth factors for gene delivery to MSCs and strategies for bone and cartilage tissue regeneration using GM-MSCs. Furthermore, we describe strategies for strengthening GM-MSCs to more intensively induce tissue regeneration by co-delivery system of multiple genes.

Improvement of the Biocompatibility of Chitosan Dermal Scaffold by Rigorous Dry Heat Treatment

  • Kim, Chun-Ho;Park, Hyun-Sook;Gin, Yong-Jae;Son, Young-Sook;Lim, Sae-Hwan;Park, Young-Ju;Park, Ki-Sook;Park, Chan-Woong
    • Macromolecular Research
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    • 제12권4호
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    • pp.367-373
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    • 2004
  • We have developed a rigorous heat treatment method to improve the biocompatibility of chitosan as a tissue-engineered scaffold. The chitosan scaffold was prepared by the controlled freezing and lyophilizing method using dilute acetic acid and then it was heat-treated at 110$^{\circ}C$ in vacuo for 1-3 days. To explore changes in the physicochemical properties of the heat-treated scaffold, we analyzed the degree of deacetylation by colloid titration with poly(vinyl potassium sulfate) and the structural changes were analyzed by scanning electron microscopy, Fourier transform infrared (FT-IR) spectroscopy, wide-angle X-ray diffractometry (WAXD), and lysozyme susceptibility. The degree of deacetylation of chitosan scaffolds decreased significantly from 85 to 30% as the heat treatment time increased. FT-IR spectroscopic and WAXD data indicated the formation of amide bonds between the amino groups of chitosan and acetic acids carbonyl group, and of interchain hydrogen bonding between the carbonyl groups in the C-6 residues of chitosan and the N-acetyl groups. Our rigorous heat treatment method causes the scaffold to become more susceptible to lysozyme treatment. We performed further examinations of the changes in the biocompatibility of the chitosan scaffold after rigorous heat treatment by measuring the initial cell binding capacity and cell growth rate. Human dermal fibroblasts (HDFs) adhere and spread more effectively to the heat-treated chitosan than to the untreated sample. When the cell growth of the HDFs on the film or the scaffold was analyzed by an MTT assay, we found that rigorous heat treatment stimulated cell growth by 1.5∼1.95-fold relative to that of the untreated chitosan. We conclude that the rigorous dry heat treatment process increases the biocompatibility of the chitosan scaffold by decreasing the degree of deacetylation and by increasing cell attachment and growth.