Mesenchymal stem cells (MSCs) as skeletal therapeutics–an update

Saeed, Hamid; Ahsan, Muhammad; Saleem, Zikria; Iqtedar, Mehwish; Islam, Muhammad; Danish, Zeeshan; Khan, Asif Iqbal

doi:10.1186/s12929-016-0254-3

Cited by 64 publications

(45 citation statements)

References 144 publications

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“…An application of mesenchymal stem cell (MSC)‐based cell therapy demonstrated encouraging results in the treatment of cancer, autoimmunity, neuronal disorders, and the control of inflammation during organ transplantation (El‐Badri, Maheshwari, & Sanberg, ; Kariminekoo et al, ; Kean, Lin, Caplan, & Dennis, ; Menon, Shi, & Carroll, ). Several clinical trials have demonstrated the profound capacity of MSCs to regenerate and repair various tissues (Lerman, Alotti, Ume, & Péault, ; Ma, Tan, Zhang, & Fu, ; Saeed et al, ). Previously, the role of MSCs as well as of other immune effector cells was proved in the therapy of infectious diseases including TB (Joshi, Chelluri, & Gaddam, ; Parida et al, ).…”

Section: Introductionmentioning

confidence: 99%

Application of the allogenic mesenchymal stem cells in the therapy of the bladder tuberculosis

Yudintceva

Bogolyubova

Muraviov

et al. 2017

J Tissue Eng Regen Med

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Urogenital tuberculosis (TB) often leads to contraction of the bladder, a reduction of the urinary reservoir capacity, and, in the latest stage, to real microcystitis up to full obliteration. Bladder TB Stage 4 is unsuitable for conservative therapy, and cystectomy with subsequent enteroplasty is indicated. In this study, using a model of bladder TB in New Zealand rabbits, the therapeutic efficacy of the interstitial injection of autologous bone-derived mesenchymal stem cells (MSCs) combined with standard anti-TB treatment in the restoration of the bladder function was demonstrated. For analysis of the MSC distribution in tissues, the latter were labelled with superparamagnetic iron oxide nanoparticles. In vitro studies demonstrated the high intracellular incorporation of nanoparticles and the absence of cytotoxicity on MSC viability and proliferation. A single-dose administration of MSCs into the bladder mucosal layer significantly reduced the wall deformation and inflammation and hindered the development of fibrosis, which was proven by the subsequent histological assay. Confocal microscopy studies of the bladder cryosections confirmed the presence of superparamagnetic iron oxide nanoparticle-labelled MSCs in different bladder layers of the treated animals, thus indicating the role of stem cells in bladder regeneration.

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Section: Introductionmentioning

confidence: 99%

Application of the allogenic mesenchymal stem cells in the therapy of the bladder tuberculosis

Yudintceva

Bogolyubova

Muraviov

et al. 2017

J Tissue Eng Regen Med

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“…Znane w medycynie możliwo-ści zastosowania komórek macierzystych w dużej mierze sprowadzają się do wspomagania leczenia trudno gojących się ran [7]. Odkrycie zdolności różni-cowania się mezenchymalnych komórek macierzystych w kierunku komórek tkanki kostnej zaowocowało wprowadzeniem terapii komórkami macierzystymi w schorzeniach reumatycznych i zwyrodnieniowych stawów [8]. Najnowsze doniesienia naukowe wskazują, że zastosowanie komórek macierzystych może ułatwić odbudowę rdzenia kręgowego i pozwolić na przywrócenie sprawności sparaliżowanych kończyn [9,10].…”

Section: W St ę Punclassified

Limbal epithelial stem cells in regeneration of corneal epithelium – clinical and molecular aspects

Sikora

Skubis

Sedlak

et al. 2018

Ann. Acad. Med. Siles.

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ST R ES ZCZ E NI EKomórki macierzyste rąbka rogówki (limbal epithelial stem cells -LESC) zlokalizowane są na granicy rogówki i spojówki. Ich funkcja polega na odbudowie rogówki poprzez zastępowanie uszkodzonych lub niefunkcjonalnych komórek. W niniejszej pracy zawarto informacje dotyczące charakterystyki LESC, opisano sposoby ich identyfikacji z wykorzystaniem markerów powierzchniowych oraz cech morfologicznych. W pracy zawarto również informacje dotyczące hodowli komórek w warunkach in vitro jako potencjalnego źródła komórek wykorzystywanych w terapii oraz poruszono zagadnienia dysfunkcji LESC spowodowanych niedoborem komórek macierzystych wywołanych różnymi czynnikami, a także przedstawiono stosowane obecnie metody leczenia LSCD (limbal stem cell deficiency). Standardowe leczenie niedoboru komórek macierzystych rąbka rogówki polega na farmakoterapii oraz transplantacji autologicznego rąbka rogówki bogatego w komórki macierzyste. W przypadku całkowitego niedoboru LESC konieczne jest wykonanie przeszczepów allogenicznych.

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“…MSCs differentiate into multiple cell lineages such as the chondrocytes, endothelial cells and the osteoblasts . The focus of this review, however, will be on their ability to differentiate along the osteogenic pathway and how this could aid in bone regeneration in diabetes . MSCs are identified based on their surface antigens such as CD34, CD19, CD73 and CD105 .…”

Section: General Stem Cell Biologymentioning

confidence: 99%

“…In a bid to accurately identify MSC markers, a list of novel markers was compiled including CD271, GD2, SSEA4 and CD146 . MSCs are located in most tissues within the body and have immunoregulatory, anti‐apoptosis, pro‐angiogenic, prodifferentiation and induction of host cell migration capabilities …”

Section: General Stem Cell Biologymentioning

confidence: 99%

Weak bones in diabetes mellitus – an update on pharmaceutical treatment options

Lin

Dass

2017

Journal of Pharmacy and Pharmacology

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Objectives Diabetes mellitus is often associated with a number of complications such as nephropathy, neuropathy, retinopathy and foot ulcers. However, weak bone is a diabetic complication that is often overlooked. Although the exact mechanism for weak bones within diabetes mellitus is unclear, studies have shown that the mechanism does differ in both type I (T1DM) and type II diabetes (T2DM). This review, however, investigates the application of mesenchymal stem cells, recombinant human bone morphogenetic protein-2, teriparatide, insulin administration and the effectiveness of a peroxisome proliferator-activated receptor-ϒ modulator, netoglitazone in the context of diabetic weak bones. Key findings In T1DM, weak bones may be the result of defective osteoblast activity, the absence of insulin's anabolic effects on bone, the deregulation of the bone-pancreas negative feedback loop and advanced glycation end product (AGE) aggregation within the bone matrix as a result of hyperglycaemia. Interestingly, T2DM patients placed on insulin administration, thiazolidinediones, SGLT2 inhibitors and sulfonylureas have an associated increased fracture risk. T2DM patients are also observed to have high sclerostin levels that impair osteoblast gene transcription, AGE aggregation within bone, which compromises bone strength and a decrease in esRAGE concentration resulting in a negative association with vertebral fractures. Summary Effective treatment options for weak bones in the context of diabetes are currently lacking. There is certainly scope for discovery and development of novel agents that could alleviate this complication in diabetes patients.

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Mesenchymal stem cells (MSCs) as skeletal therapeutics–an update

Cited by 64 publications

References 144 publications

Application of the allogenic mesenchymal stem cells in the therapy of the bladder tuberculosis

Application of the allogenic mesenchymal stem cells in the therapy of the bladder tuberculosis

Limbal epithelial stem cells in regeneration of corneal epithelium – clinical and molecular aspects

Weak bones in diabetes mellitus – an update on pharmaceutical treatment options

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