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111	EVALUATION OF INSULIN-LIKE GROWTH FACTOR-1 AS A THERAPEUTIC APPROACH FOR THE TREATMENT OF TRAUMATIC BRAIN INJURY Carlson, Shaun W 01 January 2013 (has links) Traumatic brain injury (TBI) is a prevalent CNS neurodegenerative condition that results in lasting neurological dysfunction, including potentially debilitating cognitive impairments. Despite the advancements in understanding the complex damage that can culminate in cellular dysfunction and loss, no therapeutic treatment has been effective in clinical trials, highlighting that new approaches are desperately needed. A therapy that limits cell death while simultaneously promoting reparative mechanisms, including post-traumatic neurogenesis, in the injured brain may have maximum effectiveness in improving recovery of function after TBI. Insulin-like growth factor-1 (IGF-1) is a potent growth factor that has previously been shown to promote recovery of function after TBI, but no studies have evaluated the efficacy of IGF-1 to promote cell survival and modulate neurogenesis following brain injury. Systemic infusion of IGF-1 resulted in undetectable levels of IGF-1 in the brain, but did promote increased cortical activation of Akt, a pro-survival downstream mediator of IGF-1 signaling, in mice subjected to controlled cortical impact (CCI), a well-established model of contusion TBI. However, systemic infusion of IGF-1 did not promote recovery of motor function in mice after CCI. A one week central infusion of IGF-1 elevated brain levels of IGF-1, increased Akt activation and improved motor and cognitive function after CCI. Central infusion of IGF-1 also significantly increased immature neuron density at 7 d post-injury for a range of doses and when administered with a clinically relevant delayed onset of 6 hr post-injury. To mitigate potential side effects of central infusion, an alternative conditional astrocyte-specific IGF-1 overexpressing mouse model was utilized to evaluate the efficacy of IGF-1 to promote post-traumatic neurogenesis. Overexpression of IGF-1 did not protect against acute immature neuron loss, but did increase immature neuron density above uninjured levels at 10 d post-injury. The increase in immature neuron density appeared to be driven by enhanced neuronal differentiation. In wildtype mice, immature neurons exhibited injury-induced reductions in dendritic arbor complexity following severe CCI, a previously unknown pathological phenomenon. Overexpression of IGF-1 in brain-injured mice promoted the restoration of dendritic arbor complexity to the dendritic morphology observed in uninjured mice. Together, these findings provide strong evidence that treatment with IGF-1 promotes the recovery of neurobehavioral function and enhances post-traumatic neurogenesis in a mouse model of contusion TBI. Traumatic Brain Injury Insulin-like Growth Factor-1 Neurogenesis Contusion Neurobehavioral Function Neurosciences
112	Genetic Variation at the Insulin-like Growth Factor 1 Gene and Association with Breast Cancer, Breast Density and Anthropometric Measures Fehringer, Gordon Markus 28 July 2008 (has links) Background and objectives Evidence suggests that circulating IGF-I levels increase mammographic density (a breast cancer risk factor) and breast cancer risk in premenopausal women. The objective of this thesis was to examine the association of genetic variation at the IGF1 gene with IGF-I concentration, mammographic density, breast cancer risk, and related anthropometric measures in premenopausal women. Methods Three IGF1 CA repeat polymorphisms (at the 5′ and 3′ ends, and in intron 2) were genotyped. A cross-sectional design was used to investigate their associations with IGF-I levels, mammographic density, BMI, weight, and height. Families from registries in Ontario and Australia were used to investigate associations with breast cancer risk and also BMI, weight and height. Results In the cross-sectional study, greater number of copies of the 5′ 19 allele were associated with lower circulating IGF-I levels. Greater number of 3′ 185 alleles were associated with greater percentage breast density, smaller amount of non-dense tissue, and lower BMI. Including BMI in regression models removed the association of the 3′ 185 allele with percentage breast density. In the family based study, nominally significant associations (5′ 21 allele, intron 2 212 allele, intron 2 216 allele) with breast cancer risk were observed, but significance was lost after multiple comparison adjustment. There was a stronger association between the intron 2 216 allele and risk under a recessive model, and 5′ allele groupings of length 18 to 20 and 20 or more repeats produced significant positive and negative associations respectively. These associations were not strongly supported in analyses stratified by registry. Results from the family based study did not support an association between genetic variation at IGF1 with BMI, weight or height. Conclusions No specific IGF1 variant influenced each of circulating IGF-I levels, mammographic density, and breast cancer risk. The failure to replicate the association of the 3′ 185 allele with BMI in the family based study suggests that the association of the 3′ 185 allele with percentage breast density is spurious, since this association was mediated through the relationship with BMI (suggesting IGF-I action on body fat). Evidence for an association between IGF1 and breast cancer risk was limited. Epidemiology Genetics Breast cancer Mammographic density insulin-like growth factor 1 0766
113	Charakterisierung der Rolle des Proteins p8 in der proliferationsassoziierten Signaltransduktion in Insulin produzierenden beta-Zellen des endokrinen Pankreas / Characterization of protein p8 in proliferation-associated signal transduction of insulin producing pancreatic beta cells Romfeld, Lars January 2010 (has links) (PDF) Ein möglicher Ansatz neuer Therapiestrategien für Diabetes mellitus besteht zum einen in der Differenzierung von Stammzellen zu insulinproduzierenden Zellen und zum anderen in der Beschleunigung der Zellproliferation ebensolcher Zellen. In zahlreichen Studien wurden bereits mitogene Signaltransduktionswege in beta-Zellen des endokrinen Pankreas unter dem Einfluss diverser Nährstoffe untersucht. Das Protein p8, ursprünglich im Umfeld einer experimentell induzierten akuten Pankreatitis im Rattenmodell als Stressantwort beschrieben, ist an einem glukoseabhängigen Zellwachstum in der insulinproduzierenden beta-Zelle des endokrinen Pankreas beteiligt. Insofern ist es nur schlüssig, die Rolle des Proteins p8 im Rahmen der proliferationsassoziierten Signaltransduktion zu untersuchen. Zur näheren Charakterisierung von p8 wurden von unserer Arbeitsgruppe Wildtyp-INS-1-Zellen (WT-INS-1), als Modell für die beta-Zelle des endokrinen Pankreas, mit einem durch IPTG induzierbaren, p8-exprimierenden System ausgestattet (p8-INS-1). Dieses System wurde in der vorliegenden Arbeit zunächst auf seine Funktionalität hin überprüft. Unter anderem konnte p8-cDNA in den stabil transfizierten p8-INS-1-Zellen und in den mit obigem Plasmid transient transfizierten WT-INS-1-Zellen dargestellt werden, wobei letztere WT-INS-1-Zellen stärker signalisierten und somit ein höheres „output“ an p8 zu generieren scheinen. In Immunoblotanalysen ergab sich ein ähnliches Bild. Durch p8-Überexpression kommt es zu einem zunehmenden Signal des Proteins p8 innerhalb der p8-INS-1-Zellen. Jedoch erscheint dieses Signal in WT-INS-1-Zellen noch stärker. Ebenso ließen sich mehrfach Doppelbanden sowohl bei p8-INS-1-Zellen als auch bei WT-INS-1-Zellen bei 14 kDa und 22 kDa darstellen. Das differenzierte Expressionsmuster beider Zelllinien im Rahmen dieser Immunoblotanalysen legt den Schluss nahe, dass eine Erhöhung des p8-Levels, sei es nun durch Induktion per IPTG-Gabe oder durch Wachstumsfaktoren, zu einem veränderten Molekulargewicht des Proteins p8 führt. Das Protein p8 unterliegt somit ständigen Veränderungen im Rahmen der Protein-Protein-Interaktion. Im Vordergrund stehen Phosphorylierungen als Aktivierungsinitiatoren und Ubiquitinierung mit synergistischer Proliferationszunahme unter p8-Überexpression und gleichzeitiger Proteasomhemmung. Gerade in Phasen erhöhten Zellstresses (Hypo- und Hypernutrition) lassen sich durch p8-Überexpression erhöhte Wachstumsraten nachweisen, während im physiologischen Bereich nur bei gleichzeitiger Proteasomhemmung Wachstumssteigerungen durch p8-Überexpression erreicht werden können. Dies unterstreicht einmal mehr die Rolle von p8 als Stressprotein. Nichtsdestotrotz übertreffen die Proliferationsraten der p8-INS-1-Zellen die der WT-INS-1-Zellen unter den verschiedensten Stimulationsbedingungen bei weitem. So konnte gezeigt werden, dass in den p8-INS-1-Zellen eine progrediente, glukoseabhängige Proliferation vorliegt, welche sich durch Gabe von IGF-1 oder foetalem Kälberserum (FBS) zu einem signifikanten synergistischen Wachstum ausweiten lässt. Und auch hier erzeugt p8 als Stressprotein bei p8-INS-1-Zellen im glukosefreiem Medium bei alleiniger Stimulation mit Wachstumsfaktoren signifikante Wachstumsraten im Vergleich zu WT-INS-1-Zellen. Die Umsetzung der Stimulation durch Glukose und Wachstumsfaktoren auf die p8-vermittelte Proliferation vollzieht sich innerhalb der Signaltransduktion. Mit Phosphatidylinositol-3´-Kinase (PI3´K) als Schlüsselprotein innerhalb der mitogenen Signaltransduktion und Proteinkinase C (PKC alpha, beta, gamma) konnten durch Co-Immuno-präzipitationen, GST-Pull-Downs, Immunoblotanalysen aber auch Inhibitionsversuche wichtige Interaktionspartner von p8 identifiziert werden. Weitere Bindungspartner des Proteins p8 resultierten durch Inhibitionsversuche mit Proteinkinasen wie PKCzeta und PKA, aber auch p38 MAPK als Vertreter des MAPK-Signalweges. Dabei zeigt sich ein relativ gleiches Bild mit tendenziell eher mäßigen Proliferationshemmung im niedrigen bis normalen Glukosebereich, welche sich unter p8-Überexpression verstärkt. Verschiedene Regelkreise zur Feinsteuerung der p8-vermittelten Proliferation scheinen hier denkbar. Sollte p8 neben der Zellproliferation auch zu einer Aktivierung der genannten Proteine führen, könnte die Inhibition dieser Proteine ihrerseits die p8-vermittelte Proliferation hemmen. Auf Proteinebene ließ sich die Verbindung zwischen p8 und MAPK p38, PKCzeta, PKA und PKB nicht nachweisen, erscheint aber wegen der Primärstrukturen der Proteine, sowie Erkenntnissen aus der bisherigen Literatur und auch aufgrund der Versuche mit Proteininhibitoren im Rahmen dieser Arbeit wahrscheinlich. Weitergehende Untersuchungen sollten daher noch erfolgen. Die vorgestellten Ergebnisse sind ein Beitrag zum besseren Verständnis der Rolle des Proteins p8 innerhalb der mitogenen Signaltransduktion als eine Voraussetzung für einen kurativen Ansatz des Diabetes mellitus Typ I. / One possible approach for new strategies in therapy of diabetes mellitus is on one side the differentiation of stem cells to insulin producing cells and on the other side the acceleration of cell proliferation in such cells. There have been many studies in which mitogenic signal transduction in pancreatic beta cells under the influence of various nutrients and growth factors was examined. Protein p8, first described as overexpressed in experimentally induced acute pancreatitis, is involved in glucose dependent cell proliferation in the pancreatic beta cell. So it is quite logical to examine the role of protein p8 in proliferation-associated signal transduction. For more detailed characterization of p8 we transfected in our working group wild type-INS-1-cells (WT-INS-1), as a model for the pancreatic beta cell, with an IPTG-inducable and p8-overexpressing system (p8-INS-1). In the present study, this system was first controlled with regard to functionality. It worked to detect the p8-overexpressing plasmide p8pOPRSVI and the LAC-repressor in p8-INS-1-cells. In addition, p8-cDNA has been displayed in stable transfected p8-INS-1-cells and also in transiently transfected WT-INS-1-cells (with the plasmide p8pOPRSVI), whereas transiently transfected WT-INS-1-cells showed stronger signal and seemed to generate more “output” of p8. In immunoblot analysis there was a similar pattern. With p8-overexpression you see a progressive signal of protein p8 in p8-INS-1-cells. In WT-INS-1-cells this signal was even stronger. Furthermore there have been multiple double bands both in p8-INS-1-cells and WT-INS-1-cells at 14 kDa and 22 kDa. That differentiated pattern of expression of both cell lines allows the conclusion that an enlargement of p8-level by IPTG-induction or growth factors leads to a change in molecular weight of protein p8. Thus protein p8 is subject to permanent change in context of protein-protein-interaction. The focus is thereby on phosphorylation as an initiator of activation and ubiquitination with synergistic augmentation of proliferation under p8-overexpression and inhibition of proteasome at the same time. While episodes of higher cell stress (hypo- and hypernutrition) increased proliferation rates can be demonstrated, at a physiological level increased growth rates can only be achieved by p8-overexpression and concomitant inhibition of proteasome. This underlines once more the role of protein p8 as stress protein. Nevertheless, proliferation rates of p8-INS-1-cells exceed those of WT-INS-1-cells by far relating to the most different conditions of stimulation. Therefore it could be demonstrated that there is a progressive glucose-dependant proliferation in p8-INS-1-cells which can be enlarged by IGF-1 or foetal bovine serum (FBS) to a significant synergistic growth. Moreover, p8 as a stress protein induces significant growth rates in p8-INS-1-cells versus WT-INS-1-cells by only stimulation with growth factors and without any glucose. The transposition of the stimulation by glucose and growth factors to a p8-mediated proliferation is subsequently performed within the signal transduction. By using co-immunoprecipitation, GST-pull-downs and immunoblot analysis Phosphatidylinositol-3´-kinase (PI3´K), as a key protein in mitogenic signal transduction, and proteinkinase C (PKC alpha, beta, gamma) have been identified as important interaction partners of p8. Further binding partners of protein p8 resulted by experimental inhibition of proteinkinases like PKCzeta and PKA, but also p38 MAPK as representative of the MAPK-mediated signal transduction. Thereby you can see a quite homogeneous image of a rather moderate inhibition of proliferation at lower or physiological glucose levels which is increased when overexpressing p8. Different regulator circuits for fine tuning of the p8-mediated proliferation seem to be thinkable. If the activation of p8 should lead to an activation of the named proteins, apart from cell proliferation, the inhibition of these proteins could also inhibit the p8-mediated proliferation. Unfortunately, the direct protein-protein-connection between p8 and MAPK p38, PKCzeta, PKA or PKB couldn´t be verified in this present examination. But due to the primary structure of these proteins as well as findings in previous literature and also because of the experiments with proteininhibitors in the present examination, this aspect seems to be most likely. In this regard further studies should be carried out. The presented results contribute to a better understanding of the role of protein p8 within the mitogenic signal transduction as a requirement for a curative therapy of diabetes mellitus type I. B-Zelle Signaltransduktion Insulin-like Growth Factor I Proliferation ddc:610
114	Effects of Resistance and Aerobic Training on IGF-1 and BDNF Expression in a Murine Model of Alzheimer’s Disease Unknown Date (has links) The primary purpose of this study was to investigate the effects of aerobic and resistance training on BDNF and IGF-I expression in a 3xTg-AD mouse model of Alzheimer’s disease. Twenty-four 3xTg-AD mice were randomly assigned to either an aerobic (AT, n=8), resistance (RT, n=8), or control (CNT, n=8) group. Intervention groups underwent 9 weeks of exercise training. Motor behavior and grip strength were measured pre- and post- intervention. Our results showed a significant increase in hippocampal BDNF expression in AT mice after a 9-week intervention. Further, AT mice were found to have higher concentrations of IGF-I, and improved motor behavior when compared to RT and CNT. No significant differences were observed in IGF-I concentration between RT and other groups. RT improved grip strength after nine weeks of training. These findings support the use of AT and RT as a tool to improve comorbidities found in Alzheimer’s disease. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection Alzheimer's disease. Insulin-Like Growth Factor I. Brain-Derived Neurotrophic Factor Aerobic exercises. Resistance Training.
115	Common carp (cyprinus carpio) IGF-II: gene structure, promoter and gene expression studies. / CUHK electronic theses & dissertations collection January 2004 (has links) Tse Chui-ling. / "July 2004." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2004. / Includes bibliographical references (p. 172-185). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. Carp--Molecular genetics Somatomedin Gene expression Carps--genetics Insulin-Like Growth Factor II--genetics Gene Expression
116	Effects of the neurotrophic factors CNTF and IGF-1 in mouse models for spinal muscular atrophy and diabetic neuropathy / Effekte der neurotrophen Faktoren CNTF und IGF-1 in Mausmodellen für spinale Muskelatrophie und diabetische Neuropathie Simon, Christian Marc January 2011 (has links) (PDF) In this study I investigate the role of Schwann cell and axon-derived trophic signals as modifiers of axonal integrity and sprouting in motoneuron disease and diabetic neuropathy (DNP). The first part of this thesis focuses on the role of the Schwann-cell-derived ciliary neurotrophic factor (CNTF) for compensatory sprouting in a mouse model for mild spinal muscular atrophy (SMA). In the second part, the role of the insulin-like growth factor 1 (IGF-1) and its binding protein 5 (IGFBP-5) is examined in the peripheral nerves of patients with DNP and in two corresponding mouse models. Proximal SMA is caused by homozygous loss or mutation of the SMN1 gene on human chromosome 5. The different forms of SMA can be divided into four groups, depending on the levels of SMN protein produced from a second SMN gene (SMN2) and the severity of the disease. Patients with milder forms of the disease, type III and type IV SMA, normally reach adulthood and regularly show enlargement of motor units, signifying the reinnervation of denervated muscle fibers. However, the underlying mechanisms are not understood. Smn+/- mice, a model of type III/IV SMA, are phenotypically normal, but they reveal progressive loss of motor neurons and denervation of motor endplates starting at 4 weeks of age. The progressive loss of spinal motor neurons reaches 50% at 12 months but muscle strength is not reduced. The first evidence for axonal sprouting as a compensatory mechanism in these animals was the more than 2-fold increase in amplitude of single motor unit action potentials (SMUAP) in the gastrocnemius muscle. Confocal analysis confirmed pronounced sprouting of innervating motor axons. As CNTF is highly expressed in Schwann cells and known to be involved in sprouting, its role for this compensatory sprouting response and the maintenance of muscle strength in Smn+/- mice was investigated. Deletion of CNTF in this mouse model results in reduced sprouting and decline of muscle strength in Smn+/- Cntf-/- mice. These findings indicate that CNTF is necessary for a sprouting response and thus enhances the size of motor units in skeletal muscles of Smn+/- mice. DNP afflicting motor and sensory nerve fibers is a major complication in diabetes mellitus. The underlying cellular mechanisms of motor axon degeneration are poorly understood. IGFBP-5, an inhibitory binding protein for IGF-1, is highly upregulated in peripheral nerves in patients with DNP. The study investigates the pathogenic relevance of this finding in transgenic mice overexpressing IGFBP-5 in motor axons. These mice develop motor axonopathy similar to that seen in DNP. Motor axon degeneration is also observed in mice in which the IGF-1 receptor (IGF-1R) was conditionally depleted in motoneurons, indicating that reduced activity of IGF-1 on IGF-1R in motoneurons is responsible for the observed effect. These data provide evidence that elevated expression of IGFBP-5 in diabetic nerves reduces the availability of IGF-1 for IGF-1R on motor axons leading to progressive neurodegeneration, and thus offers novel treatment strategies. / In dieser Arbeit habe ich die Rolle der neurotrophen Faktoren Ciliary neurotrophic factor (CNTF) und Insulin-like-growth factor 1 (IGF-1), die in Schwannzellen gebildet werden, als Modulatoren der axonalen Integrität bei einer degenerativen Motoneuronenerkrankung und bei diabetischer Neuropathie (DNP) untersucht. Im ersten Teil dieser Arbeit wird gezeigt, dass CNTF für ein kompensatorisches Sprouting von motorischen Axonen in einem Mausmodell für spinale Muskelatrophie (SMA) verantwortlich ist. Im zweiten Teil wird die Rolle von IGF-1 und dessen Bindeprotein, IGFBP-5, in Axonen motorischer Nerven bei Patienten mit DNP und zwei korrespondieren Mausmodellen gezeigt. Die proximale SMA wird durch einen homozygoten Verlust oder Mutation des SMN1 Gens auf dem Chromosom 5 verursacht. Bei der spinalen Muskelatrophie unterscheidet man verschiedene Schweregrade, abhängig von der Menge an SMN Protein, das vom zweiten SMN Gen (SMN2) produziert werden kann. Patienten mit einer milderen Form von SMA (Typ III und IV) erreichen das Erwachsenenalter und zeigen oft vergrößerte motorische Einheiten, im Gegensatz zu Patienten mit den schweren kindlichen Formen der Erkrankung. Smn+/- Mäuse, ein Modell für die leichten SMA Formen Typ II und IV, zeigen denervierte Endplatten bereits 4 Wochen nach der Geburt und einen fortschreitenden Verlust von Motoneuronen, der nach 12 Monaten mehr als 50% beträgt, ohne dass sich die Muskelkraft der Tiere verringert. Die Amplitude der Summenpotenziale von einzelnen motorischen Einheiten (Single motor unit action potential, SMUAP) im Wadenmuskel ist mehr als 2-fach erhöht. Konfokale Aufnahmen bestätigen ausgeprägtes Sprouting der noch innervierenden Axone. Smn+/- Mäuse ohne CNTF, das normalerweise stark in Schwann-Zellen exprimiert ist, zeigen reduziertes Sprouting und verringerte Muskelkraft. Diese Ergebnisse sprechen dafür, dass CNTF für das Sprouting und die vergrößerten motorischen Einheiten in Smn+/- Mäusen verantwortlich ist. Dieser kompensatorische Mechanismus könnte neue Behandlungs-möglichkeiten für Motoneuronerkrankungen eröffnen. Die Diabetische Neuropathie (DNP), eine der Hauptkomplikationen bei Diabetes Mellitus, betrifft sowohl motorische als auch sensorische Nervenfasern. Die zugrunde liegenden zellulären Mechanismen, die zur Degeneration motorischer Axone in Spätstadien der Erkrankung führen, sind größtenteils noch ungeklärt. IGFBP-5, ein IGF-1 hemmendes Bindeprotein, ist in peripheren Nervbiopsien von DNP Patienten stark überexprimiert. Diese potenzielle pathogene Relevanz wurde bei IGFBP-5 überexprimierenden transgenen Mäusen untersucht. Diese Mäuse entwickeln ähnlich wie die DNP Patienten eine motorische Axonopathie. Diese Axondegeneration zeigen auch Mäuse, bei denen der IGF-1 Rezeptor (IGF-1R) neuronenspezifisch ausgeschaltet wurde. Das bedeutet, dass reduzierte Wirkung von IGF-1 am IGF-1R auf Axonen von Motoneuronen für die beobachtete Axonopathie verantwortlich ist. Zusammenfassend zeigen diese Daten, dass erhöhtes IGFBP-5 in diabetischen Nerven die Verfügbarkeit von IGF-1 für den IGF-1R reduziert und zu progressiver Neurodegeneration führt. Diese Erkenntnis könnte neue Behandlungsstrategien für Patienten mit DNP eröffnen. Spinale Muskelatrophie Ciliary neurotrophic factor Diabetische Polyneuropathie ddc:570
117	Effects of insulin and the interaction between insulin and recombinant bovine somatotropin on the production of milk and its components and on IGF-I plasma levels Molento, Carla Forte Maiolino. January 2001 (has links) No description available. Holstein-Friesian cattle. Milk yield. Insulin. Recombinant bovine somatotropin.
118	The influence of insulin-like growth factor 1 and its analogues on fibroblasts and dermal wound healing Marshall, Nicholas John. January 1998 (has links) (PDF) Includes bibliography (leaves 191-219). Examines the levels of insulin-like growth factor and the presence of IGF binding proteins in human wound fluid. Tests the potency of IGF-1 and 2 analogues in in vitro models of fibroblast activity and their effect on healing in normal and diabetic rodent wounds. Shows that IGF-1, IGF-2 and their binding proteins are present in fluid from a partial thickness cutaneous wound; that the binding proteins negatively modulate the activity of insulin-like growth factors in vitro, but that the IGFs do not necessarily show enhanced activity in vivo at the wound site if binding protein affinity is decreased. Discusses possible roles of these binding proteins in wound repair. Somatomedin Wound healing Physiology Wounds and injuries Microbiology
119	The influence of insulin-like growth factor 1 and its analogues on fibroblasts and dermal wound healing / Nicholas John Marshall. Marshall, Nicholas John. January 1998 (has links) Includes bibliography (leaves 191-219). / Copy 2 lacks some pages. / x, 219 leaves : / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Examines the levels of insulin-like growth factor and the presence of IGF binding proteins in human wound fluid. Tests the potency of IGF-1 and 2 analogues in in vitro models of fibroblast activity and their effect on healing in normal and diabetic rodent wounds. Shows that IGF-1, IGF-2 and their binding proteins are present in fluid from a partial thickness cutaneous wound; that the binding proteins negatively modulate the activity of insulin-like growth factors in vitro, but that the IGFs do not necessarily show enhanced activity in vivo at the wound site if binding protein affinity is decreased. Discusses possible roles of these binding proteins in wound repair. / Thesis (M.D.)--Dept. of Surgery, University of Adelaide, 2001? Somatomedin. Wound healing Physiology. Wounds and injuries Microbiology.
120	Effects of GH on the IGF's and IGFBP's in children with chronic renal failure and transplantation / by Margaret Jean van Renen. Van Renen, Margaret Jean. January 1996 (has links) Addenda held in pocket pasted onto back end paper. / Bibliography: leaves 137-165. / xvi, 165 leaves : / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This thesis involves the retrospective investigation of the insulin-like growth factors and their binding proteins in the serum of children with chronic renal failure (CRF) and transplantation, before and after treatment with recombinant human growth hormone (rhGH). IGF-IGFBP complexes in pooled serum from prepubertal and pubertal children of both sexes with CRF and renal transplantation, before and after treatment with rhGH, are analysed by fast protein liquid chromatography under neutral conditions. / Thesis (M.D.)--University of Adelaide, Dept. of Paediatrics, 1997? Chronic renal failure in children. Recombinant human somatotropin. Somatomedin. Physiology, Pathological.

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