The methodology and significance of minimal residual disease detection after allogeneic stem cell transplantation /

Uzunel, Mehmet,

January 2003

Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 5 uppsatser.

Storage and transfusion of platelets in vitro and in vivo studies in healthy volunteers and in allogeneic hematopoetic progenitor cell transplant recipients /

Diedrich, Beatrice,

January 2009

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2009.

Immunohaematopoietic stem and progenitor cell transplantation - a thirty year prospective and systematic research investigation

Jacobs, Peter

12 1900

Thesis (DScMedSc (Medical Sciences)--University of Stellenbosch, 2010. / Bibliography / ENGLISH ABSTRACT: See full text for abstract / AFRIKAANSE OPSOMMING: Geen opsomming was ingehandig met tesis

Stem cells transplantation

Immunohematology

Medicine

Stem cell transplantation and regeneration after dorsal root avulsion

Trolle, Carl

January 2016

Spinal root avulsion leads to paralysis and loss of sensory function. Surgical methods can improve motor function and ameliorate pain but sensory recovery in adults is poor. Previous studies have shown that cell transplantation or treatment with trophic factors can improve functional outcome in rodents after dorsal root transection or crush. Here, a dorsal root injury model, more similar to human avulsion injuries, was used. The aims of this thesis were to investigate the behaviour of different stem cells following transplantation to avulsed dorsal roots and asses their potential to serve as possible regenerative therapy. In paper I, different murine stem cell types were transplanted to avulsed dorsal roots in rats. Murine embryonic stem cells remained outside the spinal cord and were surrounded by glutamatergic terminals. Boundary cap neural crest stem cells (bNCSC) formed elongated bands outside the spinal cord and migrated to the spinal cord as single cells. In paper II, transplanted bNCSC were further characterized. bNCSC remaining outside the spinal cord expressed glial markers and were associated with different types of sensory fibres. bNCSC that migrated into the injured spinal cord expressed different neuronal markers. In paper III, effects of bNCSC transplantation on local vasculature and glial scar formation were studied. bNCSC increase angiogenesis in a non dose response manner and participate in boundary glial scar formation. In paper IV, bNCSC spinal migration was analysed using two different injury models - dorsal root transection and dorsal root avulsion. In addition, bNCSC capacity to support sensory regeneration was assessed and the results suggest that bNCSC do not support robust regeneration of avulsed afferents. In paper V, an in vitro stem cell model system was used to assess the possibility of using artificial nanomaterials to deliver differentiation factors. Cells treated with either soluble factors or particle-delivered factors showed similar differentiation patterns. Stem cell transplantation offers several opportunities following dorsal root avulsion, including cell replacement and regenerative support. By elucidating the mechanisms by which stem cells can assist regeneration of avulsed afferents will allow for more targeted or combinatorial approaches, including growth factor treatment.

Regeneration

dorsal root

sensory nerve

nerve injury

cell transplantation

Hepatocyte suspension for liver cell transplantation : consequences of cryopreservation/thawing and evaluation of the infusion related pro-coagulant activity

Stéphenne, Xavier

08 November 2007

La transplantation d’hépatocytes est une nouvelle approche thérapeutique pour le traitement des maladies métaboliques. Elle peut être proposée en alternative à la transplantation de foie entier ou, à tout le moins, en attente de celle-ci chez les patients instables, à risque de décompensation métabolique. Les essais cliniques effectués chez 9 patients aux cliniques St Luc ainsi que ceux publiés dans la littérature démontrent l’intérêt de la transplantation de cellules hépatiques à court et moyen terme. La qualité de la suspension cellulaire transplantée reste le premier facteur limitant pour le développement clinique de la technique. La cryopréservation reste le moyen le plus approprié pour la conservation à long terme des cellules. Elle permet de constituer une banque de cellules pouvant être utilisées à tout moment. Nous avons d’abord analysé les protocoles de cryopréservation décrits dans la litérature, ainsi que leurs limites tant au niveau de la préservation de la qualité cellulaire après décongélation in vitro qu’après transplantation in vivo. Dans ce travail, nous avons démontré l’intérêt d’utiliser des cellules cryopréservées/décongelées, afin de stabiliser des patients atteints de maladies du cycle de l’urée, avant la greffe de foie entier. Les tests de contrôle de qualité effectués sur ces cellules ont cependant montré une altération aux niveaux biochimique et cellulaire, après décongélation. Nous avons ainsi démontré une chute des concentrations intracellulaires d’ATP, signe d’une atteinte mitochondriale. Nos travaux ont également permis de mettre en évidence une diminution de la consommation d’oxygène des hépatocytes en suspension, due plus particulièrement à une atteinte du complexe 1 de la chaîne respiratoire. Cette atteinte mitochondriale peut déjà être observée après l’incubation de la suspension cellulaire à –20°C. Aux alentours de cette température critique se fait le passage de l’état aqueux à l’état cristallin suggérant que les dégâts mitochondriaux observés sont dès lors vraisembablement dus à la formation de glace intracellulaire durant le processus de cryopréservation ou de décongélation. Diverses tentatives visant à améliorer les paramètres mitochondriaux affectés par le processus de congélation/décongélation par l’addition d’agents protecteurs du complexe 1 (Bilobalide), d’ inhibiteurs du pore de transition de perméabilité (Ciclosporine A), d’ anti-oxydants ou encore de solutions hyperosmotiques à la solution de cryopréservation, n’ont pas permis d’améliorer la qualité cellulaire. Le tri de sous-types de populations hépatocytaires ou l’isolement de foies hépatectomisés n’ont pas permis de révéler de différences de capacité de résistance à la cryopréservation. Toujours dans le but d’améliorer le rendement de la transplantation d’hépatocytes et d’augmenter l’efficacité d’implantation dans le parenchyme receveur, nous avons démontré dans la deuxième partie de la thèse la capacité des hépatocytes isolés (fraîchement isolés ou cryopréservés/décongelés) à induire un phénomène de coagulation dépendant du facteur tissulaire. Cette activité pro-coagulante, inhibée in vitro par lea N-acetyl-L-cystéine, pourrait être le point de départ d’une réaction inflammatoire aspécifique influençant ainsi la réussite de la transplantation cellulaire. En conclusion, nous proposons dans ce travail différentes stratégies en vue de l’amélioration du rendement de la thérapie cellulaire. La vitrification, autre technique de cryopréservation, permettrait d’éviter la formation d’eau intracellulaire. Enfin la modulation de l’activité pro-coagulante par la N-acetyl-L-cystéine, due à la transplantation cellulaire, constitue une piste intéressante pour essayer d’améliorer l’implantation des cellules transplantées et ainsi le rendement de la greffe. / Liver cell transplantation provides clinical benefit to patients with congenital metabolic abnormalities and currently represents an alternative to orthotopic liver transplantation or at least an interim measure for unstable patients awaiting transplantation. Our team and others have already demonstrated that transplanted hepatocytes can achieve metabolic control in the short or medium term. The quality of transplanted cells remains the first limiting factor for the success of liver cell transplantation. Because the use of freshly isolated cells is restricted by contemporary organ donation, cryopreservation remains necessary for long-term storage and permanent availability of the cells. In this thesis, we have first reviewed and discussed established hepatocyte cryopreservation protocols, especially the cooling procedure, and have focussed on the in vitro and in vivo assays used for the evaluation of post-thawing hepatocyte quality. Amongst 9 cell transplanted patients in our center, several received exclusively or predominantly cryopreserved/thawed hepatocytes. We demonstrated post-transplantation benefits of using these cells in control patients with congentital abnormalities in the urea cycle, particularly with respect to clear evidence of cell engraftment and de novo appearance of enzyme activity. However, despite these clinical benefits, we found an in vitro relationship between the low post-thawing quality of cryopreserved /thawed hepatocytes and an alteration in their mitochondrial function. This post-thawing mitochondrial damage was already evident after the first −20°C cryopreservation step of our protocol, suggesting it occurrs early in the process, around the nucleation point, by intracellular ice formation. Cellular impairment could therefore be possibly explained by mechanical alteration of mitochondria due to water crystallisation during the cryopreservation process or thawing procedure. We also observed a poor efficacy of cryopreserved/thawed hepatocytes (as compared to freshly isolated cells) when used liver engraftment in two mice transplantation models. The marked reductions in intracellular ATP concentrations and the decreases in oxygen consumption by hepatocytes were therefore used as markers for the evaluation of the effects of several compounds such as bilobalide, hyperosmotic or anti-oxidant molecules, pore transition permeability inhibitors, and for the evaluation of the resistance of selected hepatocyte subtypes to cryopreservation protocols. We also demonstrated that isolated hepatocytes exert tissue factor-dependent pro-coagulant activity, which may contribute to the early loss of infused cells. We observed that the addition of N-acetyl-L-cysteine to hepatocyte suspensions inhibits coagulation activation. In conclusion, this work has identified several ways to improve the clinical benefit of liver cell transplantation, including new cryopreservation strategies, such as vitrification. In addition, modulation of the pro-coagulant activity induced by cell infusion with N-acetyl-L-cysteine might beneficially enhance cell engraftment.

Tissue factor

Liver cell transplantation

Hepatocyte

Cryopreservation

Procoagulant activity

Mitochondria

Defining the mechanisms by which lenalidomide can modulate the human T cell alloresponse to improve the outcome of allogeneic haematopoietic stem cell transplantation

Besley, Caroline

January 2017

Immunomodulatory drugs (IMiDs) could enhance both direct anti-tumour and graft-versus-tumour effects after allogeneic haematopoietic stem cell transplantation (AHSCT). However, clinical experience with IMiDs after AHSCT using adult peripheral blood (APB) as a stem-cell source has been limited by graft-versus-host disease. Characterization of the mechanisms by which IMIDs modulate alloresponses of T cells and identification of differential effects on T cells from different cell sources could facilitate more effective use of these drugs in the setting of AHSCT. Using in vitro modelling, multi-parameter flow cytometry and gene expression analysis, I have determined the impact of the widely used IMiD lenalidomide on alloresponses of APB and umbilical cord blood (UCB)-derived T cells. Lenalidomide-treatment potentiates net alloproliferation of APB-derived T cells by selectively enhancing proliferation of CD8+ T cells. These CD8+ T cells have enhanced effector memory differentiation, are enriched for polyfunctional effectors, have enhanced direct-cytotoxicity against heamatopoietic target-cells and have a distinct gene expression profile with altered expression of key immunoregulatory-genes and depletion of cellular ikaros. Importantly, while effects on CD8+ T cells derived from UCB are similar, lenalidomide has contrasting effects on allospecific proliferation of APB and UCB-derived CD4+ T cells. While lenalidomide-treatment has no effect on alloproliferation of APB-derived CD4+ T cells, it reduces alloproliferation of UCB-derived CD4+ T cells. The reduction in UCB-derived CD4+ T cell alloproliferation is accompanied by selective expansion of CD4+CD25+FOXP3+ regulatory T cells (Treg), resulting in an overall reduction in UCB-derived T cell alloproliferation. These findings demonstrate that lenalidomide has a differential impact on alloresponses of T cells from different cell sources; alloresponses of APB-derived T cells are increased via selective expansion of polyfunctional CD8+ effectors, while alloresponses of UCB-derived T cells are limited by expansion of tolerogenic Treg. These findings have important implications for the future use of IMiDs in the setting of AHSCT.

Therapeutic potential of neural progenitor cell transplantation in a rat model of Huntington’s Disease

Vazey, Elena Maria

January 2009

Whole document restricted, see Access Instructions file below for details of how to access the print copy. / Huntington’s disease [HD] is a debilitating adult onset inherited neurodegenerative disorder with primary degeneration in the striatum and widespread secondary degeneration throughout the brain. There are currently no clinical treatments to prevent onset, delay progression or replace lost neurons. Striatal cell transplantation strategies under clinical evaluation appear viable and effective for the treatment of HD. However, the future of regenerative medicine lies in developing renewable, expandable multipotent neural cell sources for transplantation. This Thesis has investigated a range of novel developments for enhancing the therapeutic potential of neural progenitor cell transplantation in a quinolinic acid [QA] lesion rat model of HD using two cell sources, adult neural progenitor cells and human embryonic stem cell [hESC] derived neural progenitor cells. Chapter Three identified a novel method for in vitro lithium priming of adult neural progenitor cells which enhances their neurogenic potential at the expense of glial formation. Chapter Four demonstrated that lithium priming of adult neural progenitor cells altered their phenotypic fate in vivo after transplantation, enhancing regional specific differentiation and efferent projection formation. The therapeutic potential of this strategy was demonstrated by accelerated acquisition of motor function benefits in the QA model. Chapter Five then demonstrated the ability for post transplantation environmental enrichment to modify therapeutic functional outcomes in the QA lesion model, and through lithium priming and enrichment demonstrated that adult neural progenitors are amenable to combinatorial interventions which can alter their phenotypic fate and enhance anatomical integration. Chapter Six investigated the in vivo effects of in vitro noggin priming of hESC derived neural progenitor cells and identified enhanced safety and neuronal differentiation in the QA lesioned striatum after noggin priming. Furthermore Chapter Seven provided evidence for functional reconstruction and therapeutic functional benefits from transplantation of noggin primed hESC derived neural progenitor cells and also highlighted the need for systematic evaluations of hESC derived transplants to optimise their safety in vivo. These results are beneficial in demonstrating the realistic therapeutic potential held by these two cell sources. They demonstrate how transient interventions can enhance therapeutic outcomes of neural progenitor cell transplantation for HD and have developed the understanding of neural progenitor cell transplantation as a therapeutic tool, bringing transplantation from different cell sources closer to eventual translation for HD sufferers.

Neural progenitor cells

Cell transplantation

Huntington's disease

Lithium chloride

hESC

The Effects of Calcium Channel Blockade and Atrial Natriuretic Peptide Signalling on Proliferation and Differentiation of Cardiac Progenitor Cells

Hotchkiss, Adam, Gordon

01 August 2013

Cardiac progenitor cells (CPCs) are abundant in the embryonic heart and have hallmark features which include a rapid rate of cell division and the ability to differentiate into mature heart muscle cells (cardiomyocytes). Based on these features, CPCs are considered an attractive candidate cell type for transplantation therapies which aim to replenish the diseased heart muscle tissue (myocardium) with new muscle forming cells. A better understanding of how pharmacological drugs and endogenous hormones/signalling molecules modulate the balance between proliferation and differentiation of CPCs could be used to develop more effective cell based therapies for myocardial repair. Furthermore, this information could provide valuable new insight into molecular mechanisms regulating normal cardiogenesis during the embryonic period. The specific aims of the present study were to characterize the effects of the Ca2+ channel blocking drug nifedipine and the endogenous hormone/paracrine factor atrial natriuretic peptide (ANP) on CPC proliferation and differentiation. Results showed that primary cultured CPCs, isolated from the ventricles of embryonic day (E) 11.5 mouse embryos, underwent a reduction in cell cycle activity following exposure to nifedipine. Furthermore, systemic administration of nifedipine to adult mice receiving transplanted E11.5 ventricular cells (containing CPCs) was associated with smaller graft sizes compared to control animals that did not receive the drug. Results from the present study also demonstrated that ANP receptor mediated signalling systems are biologically active in E11.5 ventricular cells and have an antiproliferative effect on cultured E11.5 CPCs. Moreover, preliminary data provided evidence that genetic ablation of the ANP high affinity receptor (NPRA) may be associated with impaired development of the ventricular cardiac conduction system. Collectively, work from this thesis provides evidence that interactions between transplanted cells and pharmacological drugs could have a significant impact on the effectiveness of cell based therapies and that ANP signalling systems may play a critical role in cardiac ontogeny by regulating the balance between CPC proliferation and differentiation.

Cellular cardiomyoplasty : optimizing cellular dosage and retention by microencapsulation

Al Kindi, Adil Hashim, 1976-

January 2008

Cellular Cardiomyoplasty (cell therapy for myocardial regeneration) targets the basic pathophysiology of heart failure and represents a novel technique for augmenting the function of the failing heart. Previous studies have demonstrated massive mechanical losses in the first few minutes. Thus, efforts to reduce mechanical losses may prove more beneficial than those directed against biological losses alone. We believe that "Wash-out" into the disrupted blood vessels is responsible for these early losses. / In the first part of this study we hypothesized that by increasing the size of the injectate, the amount of immediate losses can be reduced achieving better retention. Using Alginate-poly-L-lysine-Alginate (APA) miscrocapsules of two different sizes (200mum&400mum) and comparing retention with bare microspheres (10mum) of similar size to MSCs, we demonstrated that immediate retention rate increased by four folds. The retention rate for group 1 (microspheres only) was 4.28+/-3.46% which was significantly lower than that for groups 2 (microspheres in 200mum microcapsules) at 16.45+/-12.66% and group 3 (microspheres in 400mum microcapsules) at 12.93+/-6.28% for Group (p<0.05). There was no difference between group 2 and 3. / In the second part, we investigated the potential of gradually increasing the cell load on functional improvement and engraftment using conventional intramuscular delivery. Five groups of rats received escalating doses of MSCs after surgically induced ischemia (gp1 no cells, gp2 0.5x 10 6, gp3 1.5x106, gp4 3x106,gp5 5x106 MSCs). At 7 weeks, we observed significant improvement in cardiac function in groups 3 to 5 compared to post-infarction baseline. This was not observed in groups 1 & 2. However, in groups 3 to 5, we observed no functional advantage for increasing the cell load beyond a minimal therapeutic dose. This is consistent with our hypothesis that small cells are washed out into the circulation. / We also showed the ability of Alginate-Poly-l-lysine-Alginate (APA) microcapsules to sustain the viability of encapsulated MSCs in-vitro. Finally, the ability of encapsulated MSCs to improve the function of the heart in-vivo was tested.

Myocardial Infarction -- surgery.

Myocardium -- cytology.

Stem Cell Transplantation -- methods.

Rats.

Awakening from the cocoon: family members transitioning through 100 days post stem cell transplant

Gagne, Daniel

28 May 2012

A qualitative phenomenological study using van Manen’s human science method was conducted to gain insight into the lived experience of patients and their family members transitioning through one hundred days post haematopoietic stem cell transplantation (HSCT). Three families between zero and five years post HSCT were recruited from a bone marrow transplant unit in central Canada. Multiple in-depth open-ended interviews and field notes were employed to arrive at a detailed description of the lived experience of patients and family members. Awakening from the cocoon emerged as the main essence of patient’s and family members’ experiences, supported by three themes: the disruptions, the chrysalis, and new beginnings. The results from this study provide evidence that the families viewed the HSCT in a positive perspective and highlight the importance of supporting families throughout the acute phase of transplantation.

stem cell transplantation

lived experience

phenomenology

qualitative research