Use of Nanoparticles for the Treatment of Malignant Neoplasm As a Cancer Targeted Drug Delivery System
DOI:
https://doi.org/10.22270/ajprd.v7i4.513Keywords:
Nanotubes, Nano Particles, Nano Device, cancer cells, Novel Drug Delivery system, chemotherapyAbstract
The current situation of Malignant Neoplasm is very different it’s the fourth decade and despite much progress has been made in categorizing the environmental causes and cellular and molecular biological basis for this dreaded disease, Malignant Neoplasm commonly known as (Cancer) till now we did not understand the actual difference between the cancer cell and its normal counterpart. If we did not understand we cannot control, eliminate, treat cancer. The human genome sequence and its subsequent improvements in the sequence data are important steps to fully comprehend cancer cell biology. The current recent advances in the understanding of pharmacokinetic & pharmacodynamic behaviour of drug have offered a more rational approach to the development of optimal drug delivery system. The novel drug delivery systems (NDDS) are carriers which maintain the drug concentration in therapeutic range for a longer period of time. Nanotechnology, a new, novel focus of research evolved from the convergence and coalescence of many diverse scientific disciplines which includes Nanomedicine will have an impact on the key challenges in cancer therapy: nanotubes, Nanopores, and nanoparticles are the most promising applications for various Malignant Neoplasm treatments.
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2. Mohd.Gayoor Khan.The Novel Drug Delivery System. World J Pharm Pharm Sci.2017; 6(7):477-487.
3. Unama Yezdani, Mohd. Gayoor Khan, Fazal Khan, Arvind Verma, Nilesh Kushwah, Rohit Verma.The Drug Targeting in Alzheimer’s or Applications & it’s Hazards. World J Pharm Pharm Sci.2017; 7(11):1532-1549.
4. H.S Chandel., Sharad P.Panday, Arvind Dangi, Ashish chaurasia, Mohd.Gayoor khan et al. Development of Targeted Drug delivery. International Journal of research methodology Ijrm.Human. 2017; 1(2):30-34.
5. Kushwah Nilesh,Yezdani Umama,Mohammad Gayoor khan,Manish kushwah, Kumar Ayush.The Fundamental of Novel Drug Delivery System; Methodology, Role of Nanotechnology; Nanoparticles in Pharmaceutical Research. International Journal of Emerging Technologies and Innovative Research 2019; 6(6):140-146.
6. Mohd. Gayoor Khan, Nilesh Kushwaha, Fazal Khan, Vipul Patel. Microencapsulation. International Journal of research methodology. 2017; 1(2):35-42.
7. Umama Yezdani, Mohd. Gayoor Khan, Nilesh Kushwah, Arvind Verma,Fazal Khan. Application of Nanotechnology in Diagnosis and treatment of various disease and it’s future advances in medicine. World J Pharm Pharm Sci.2018; 7(11):1611-1633.
8. Yezdani Umama,Venkatajah G, Rav Shourabh, Roshan Kumar, Arvind Verma, Ayush Kumar, Md. Khan Gayoor et al. Topic-The scenario of pharmaceuticals and development of microwave as;sisted extraction technique. World J Pharm Pharm Sci.2019; 8(7):1260-1271.
9. H. Zhou and C. Liu. Microwave assisted extraction of solanesol from tobacco leaves.J. Chromatograph. A. 2006; 1129:135-39.
10. L. Wang and C.L. Weller. Recent advances in extraction of nutraceuticals from plants. Trends Food Sci. Technol.2006; 17:300-12.
11. S. Karthikeyan, R. Bal Subramanian and S.W. See. Optimization and validation of a low temperature microwave assisted extraction method for analysis of polycyclic aromatic hydrocarbons in airborne particulate matter. Talanta, 2006; 69: 79- 86.
12. M. letellier, H. Budzinski, L. Charrier, S. Capes and A.M. Dorthe. Optimization by factorial design of focused microwave assisted extraction of polycyclic aromatic hydrocarbons from marine sediment. J. Anal. Chem.1999; 364:228-37.
13. C.W. Huie. A review of modern sample preparation techniques for the extraction and analysis of medicinal plants. Anal. Bioanal. Chem, 2002; 373: 23-30.
14. Drug delivery systems third edition Vasant V. Ranade, John B. Cannon, Pg no. 56-63.
15. Gobin AM, O'Neal DP, Watkins DM, Halas NJ, Drezek RA, near infrared laser-tissue welding using Nano shells as an exogenous absorber. Lasers Surg Med, 2005; 37: 123-129.
16. Nishizawa M, Menon VP, Martin Cr: Metal Nano tubule membranes with electrochemically switchable ion-transport selectivity. Science, 1995; 268: 700-702.
17. Targeted delivery of small & macromolecular drugs. Editor- Ajit S. Narang; Page no. 78-83.
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