Clinical and economic implications of the use of nanoparticle paclitaxel (Nanoxel) in India

Ranade, Anantbhushan; Joshi, Deepak A.; Phadke, Girish K.; Patil, Poonam; Kasbekar, R. B.; Apte, T. G.; Dasare, R. R.; Mengde, S. D.; Parikh, Purvish M.; Bhattacharyya, Gouri Shankar; Lopes, Gilberto

doi:10.1093/annonc/mdt322

Cited by 36 publications

(24 citation statements)

References 8 publications

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“…Another way to enhance the water solubility of compound 9 , is the use of liposomes, as in the case of Lipusu ® agent, or encapsulation into polymer micelles as, for example, in the Nanoxel ® agent [ 50 , 51 ]. A major limitation of broader clinical use of compound 9 is also the fact that despite a successful outcome after the first series of chemotherapy with this drug, most patients experience a relapse of the disease and an increase in cancer cell resistance to the drug.…”

Section: Microtubule Inhibitorsmentioning

confidence: 99%

Mitotic Poisons in Research and Medicine

et al. 2020

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Cancer is one of the greatest challenges of the modern medicine. Although much effort has been made in the development of novel cancer therapeutics, it still remains one of the most common causes of human death in the world, mainly in low and middle-income countries. According to the World Health Organization (WHO), cancer treatment services are not available in more then 70% of low-income countries (90% of high-income countries have them available), and also approximately 70% of cancer deaths are reported in low-income countries. Various approaches on how to combat cancer diseases have since been described, targeting cell division being among them. The so-called mitotic poisons are one of the cornerstones in cancer therapies. The idea that cancer cells usually divide almost uncontrolled and far more rapidly than normal cells have led us to think about such compounds that would take advantage of this difference and target the division of such cells. Many groups of such compounds with different modes of action have been reported so far. In this review article, the main approaches on how to target cancer cell mitosis are described, involving microtubule inhibition, targeting aurora and polo-like kinases and kinesins inhibition. The main representatives of all groups of compounds are discussed and attention has also been paid to the presence and future of the clinical use of these compounds as well as their novel derivatives, reviewing the finished and ongoing clinical trials.

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Section: Microtubule Inhibitorsmentioning

confidence: 99%

Mitotic Poisons in Research and Medicine

et al. 2020

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“…U poređenju sa Taxol ® rastvorom za infuziju pokazano je da su neželjeni efekti smanjeni upotrebom nanofarmaceutskih preparata sa paklitakselom. Takođe, postignuta je veća ili slična efikasnost u slučaju primjene Genexol ® -PM (koji će vjerovatno biti odobren u EU pod imenom Cynvilog ® ) i Nanoxel ® -a, respektivno, kao jedina dva odobrena preparata zasnovana na polimernim micelama (10,35,(38)(39)(40). Abraxane ® je zasad jedini odobreni lijek u kojem su polimerne nanočestice nosači paklitaksela.…”

Section: Tabela IIunclassified

Nanopharmaceuticals: Characteristics of importance for pharmaceutical practice

Bubić-Pajić¹,

Gatarić²,

Čivčija³

et al. 2017

Arhiv za farmaciju

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U polju farmaceutske tehnologije, nanofarmaceutski preparati/nanofarmaceutici su trenutno tema koja se najviše ispituje i koja najviše obećava. Primjenom materijala zasnovanih na nanotehnologiji, kao nosača za isporuku lijekova, mogu da se poboljšaju njihove farmakološke osobine, mijenjajući farmakokinetiku i distribuciju ljekovitih supstanci u biološkoj sredini. Ovaj pristup je naročito koristan u isporuci lijekova u tumorska tkiva. Zbog svojih karakteristika, nanofarmaceutici imaju mnoge prednosti u odnosu na konvencionalne preparate u hemoterapiji. Najveća prednost je ciljana isporuka lijeka do tumorskog tkiva, što za rezultat ima smanjenu sistemsku toksičnost, koja je najistaknutija mana konvencionalne hemoterapije. Zahvaljujući klinički postignutom uspjehu, poslednjih godina, od svih nanonosača, najviše pažnje i najveću primjenu, postigli su liposomi i micele. Na tržištu je komercijano dostupno više različitih nanofarmaceutika sa ljekovitim supstancama iz farmakoloških grupa kao što su antineoplastici, anestetici, analgetici, antibiotici, a najčešće su u slijedećim farmaceutskim oblicima: prašak za rastvor za infuziju, suspenzija za injekciju i emulzija za injekciju. Takođe, veći broj nanofarmaceutika je u različitim fazama kliničkih ispitivanja. Ipak, regulatorna tijela do sada nisu ponudila konkretne informacije o ispitivanjima njihovih karakteristika, kontroli kvaliteta i pitanjima bezbjednosti nanofarmaceutika, koje su farmaceutskim kompanijama neophodne u procesu razvoja i pripremi dokumentacije za registraciju nanofarmaceutika, što otežava/odgađa pojavu većeg broja novih lijekova iz ove grupe.

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“…The breakdown of the different nanomaterial types is very similar to those in phase II trials, with 44.2% of the nanomedicine options being liposomes/solid lipid nanoparticles, 32.6% are polymer therapeutics, 9.3% are polymer micelles, 7.0% are metal nanoparticles, and 7.0% are SDNs. Nanoxel-PM, like other docetaxel-/pacitaxel-based nanomedicines, has been designed to avoid the need for delivery with solubilizing agents, such as Cremophor which can cause serious side effects [211]. The conjugated PEG molecules are designed to increase the half-life and decrease the immunogenicity of uricase.…”

Section: Nanomedicines In Phase I Clinical Trialsmentioning

confidence: 99%