Enhanced antitumor effect of combined-modality treatment using convection-enhanced delivery of hydrophilic nitrosourea with irradiation or systemic administration of temozolomide in intracranial brain tumor xenografts

@article{Sugiyama2008EnhancedAE,
  title={Enhanced antitumor effect of combined-modality treatment using convection-enhanced delivery of hydrophilic nitrosourea with irradiation or systemic administration of temozolomide in intracranial brain tumor xenografts},
  author={Shin-ichiro Sugiyama and Yoji Yamashita and Toshio Kikuchi and Yukihiko Sonoda and T. Kumabe and Teiji Tominaga},
  journal={Neurological Research},
  year={2008},
  volume={30},
  pages={960 - 967}
}
Abstract Objective: Convection-enhanced delivery (CED) is a local infusion technique that delivers chemotherapeutic agents directly to the central nervous system, circumventing the blood–brain barrier and reducing systemic side effects. We previously reported the safety and efficacy of CED of ACNU (nimustine hydrochloride: 3-[(4-amino-2-methyl-5-pyrimidinyl)methyl]-1-(2-chloroethyl)-1-nitrosourea hydrochloride), a hydrophilic nitrosourea, in rat brain tumor models. This study evaluated the… 
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Methods Citations
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12 Citations

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Citation Type

Safety and feasibility of convection-enhanced delivery of nimustine hydrochloride co-infused with free gadolinium for real-time monitoring in the primate brain
TLDR
A method to monitor the drug distribution using a non-human primate brain under real-time magnetic resonance imaging monitoring of co-infused gadodiamide confirmed the success of the infusion maneuver.
Cisplatin Tumor Biodistribution and Efficacy after Intratumoral Injection of a Biodegradable Extended Release Implant
TLDR
It is reported that incorporation of cisplatin into a fatty acid-based polymer carrier followed by a local injection into the solid tumor resulted in a successful tumor growth inhibition in heterotopic mouse bladder tumor model in mice.
Local convection-enhanced delivery of chemotherapeutic agent transiently opens blood-brain barrier and improves efficacy of systemic chemotherapy in intracranial xenograft tumor model.
Trans-sodium crocetinate enhancing survival and glioma response on magnetic resonance imaging to radiation and temozolomide.
TLDR
Although tumor size was statistically equivalent in all groups at the time of treatment initiation, the addition of TSC to temozolomide and radiotherapy resulted in a statistically significant reduction in the MR imaging-documented mean tumor size at 30 days after tumor implantation.
Phase I trial of convection-enhanced delivery of nimustine hydrochloride (ACNU) for brainstem recurrent glioma
TLDR
Intracerebral CED of ACNU under real-time monitoring of drug distribution, in combination with systemic temozolomide, was well tolerated among patients with recurrent brainstem gliomas, suggesting the clinical benefits of this strategy against this devastating disease.
Regression of Recurrent Spinal Cord High-Grade Glioma After Convection-Enhanced Delivery of Nimustine Hydrochloride: Case Reports and Literature Review.
TLDR
ACNU CED dramatically regressed enhanced mass lesions and provided local tumor controls in the spinal cord and overall survivals of the 2 patients were as long as 67 and 33 mo.
Regression of recurrent glioblastoma infiltrating the brainstem after convection-enhanced delivery of nimustine hydrochloride.
TLDR
A case of recurrent glioblastoma infiltrating the brainstem that regressed after CED of nimustine hydrochloride is reported, and the patient's preinfusion symptom of diplopia disappeared after treatment.
Systematic review and meta-analysis of temozolomide in animal models of glioma: was clinical efficacy predicted?
TLDR
These data reflect those from clinical trials in that temozolomide improves survival and reduces tumour volume, even after accounting for publication bias.
Low pathogenic human enteroviruses as novel anti-cancer agents against malignant glioma
TLDR
The selective targeting of CVA21, CVA 21-DAFv and EV1 is based on the overexpression of the cellular receptors intercellular adhesion molecule1 (ICAM-1), decay accelerating factor (DAF) and integrin α2β1 on the surface of many cancer cells compared to normal cells.
Drug Repositioning for the Treatment of Glioma: Current State and Future Perspective
TLDR
This work categorizes candidate agents, which are newly identified as therapeutic drugs for malignant glioma into 10 classifications based on these original identifications, to improve the prognosis of GBM.
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References

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TLDR
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TLDR
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