Hi, I am Inderbir Singh, My LiveDNA is 91.1335
 
   
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Dr. Inderbir Singh
 
Highest Degree: Ph.D. in Pharmaceutical Sciences from Punjabi University, India
 
Institute: Chitkara University, India
 
Area of Interest: Biomedical Sciences
  •   Pharmaceutical Technology
  •   Drug Delivery
  •   Polymer Science
  •   Material Science
 
URL: http://livedna.org/91.1335
 
My SELECTED Publications
1:   Alabi, C.O., I. Singh and O.A. Odeku, 2018. Evaluation of natural and pregelatinized forms of three tropical starches as excipients in tramadol tablet formulation. J. Pharm. Invest., 48: 33-340.
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2:   Arora, G., I. Singh, M. Nagpal and S. Arora, 2011. Recent advances in stimuli induced pulsatile drug delivery system: A review. Res. J. Pharm. Technol., 4: 691-703.
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3:   Arora, G., K. Malik and I. Singh, 2011. Formulation and evaluation of mucoadhesive matrix tablets of taro gum: Optimization using response surface methodology. Polim. Med., 41: 23-34.
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4:   Arora, G., K. Malik, I. Singh and S. Arora, 2011. Formulation and Evaluation of controlled release mucoadhesive matrix tablets: Assessment of myrrh oleo gum resin as a natural pharmaceutical excipient. Int. J. Pharm. Sci. Drug Res., 3: 84-88.
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5:   Arora, G., K. Malik, I. Singh, S. Arora and V. Rana, 2011. Formulation and evaluation of controlled release matrix mucoadhesive tablets of domperidone using salvia plebeian gum. J. Adv. Pharm. Technol. Res., 2: 163-169.
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6:   Arora, G., K. Malik, J. Sharma, M. Nagpal and I. Singh, 2011. Preparation and evaluation of solid dispersions of modified gum karaya and aceclofenac: Controlled release application. Pharm. Sin., 2: 142-151.
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7:   Arora, G., K. Malik, V. Rana and I. Singh, 2012. Gum ghatti-A pharmaceutical excipient: Development, evaluation and optimization of sustained release mucoadhesive matrix tablets of domperidone. Acta Pol. Pharm., 69: 725-737.
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8:   Bansal, Y., S. Ratra, G. Bansal, I. Singh and H.Y. Aboul-Enein, 2009. Design and synthesis of coumarin substituted oxathiadiazolone derivatives having anti-inflammatory activity possibly through p38 MAP kinase inhibition. J. Iran. Chem. Soc., 6: 504-509.
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9:   Gazali, S. Kaur and I. Singh, 2017. Artificial intelligence based clinical data management systems: A review. Inform. Med. Unlocked, 9: 219-229.
10:   Gazali, S. Kaur, A. Dhawan and I. Singh, 2018. Graphene and Graphene Based Materials: Synthesis, Characterization, Toxicity and Biomedical Applications. In: Nanoconjugate Nanocarriers for Drug Delivery, Keservani, R.K. and ‎A.K. Sharma (Eds.)., Apple Academic Press, USA.
11:   Goyal, A., S. Kumar, M. Nagpal, I. Singh and S. Arora, 2011. Potential of novel drug delivery systems for herbal drugs. Indian J. Pharm. Educ. Res., 45: 225-235.
12:   Juneja, P., B. Kaur, O.A. Odeku and I. Singh, 2014. Development of corn starch-neusilin UFL2 conjugate as tablet superdisintegrant: Formulation and evaluation of fast disintegrating tablets. J. Drug Deliv., Vol. 2014. 10.1155/2014/827035.
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13:   Kaur, B., P. Juneja and I. Singh, 2014. Preparation and characterization of starch-metal silicate co-precipitates: Evaluation as tablet superdisintegrant. Polimery w Medycynie, 44: 157-166.
14:   Kaur, L. and I. Singh, 2016. Microwave grafted, composite and coprocessed materials: Drug delivery applications. Therapeutic Deliv., 7: 827-842.
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15:   Khare, A., K. Grover, P. Pawar and I. Singh, 2014. Mucoadhesive polymers for enhancing retention in ocular drug delivery: A critical review. Rev. Adhesion Adhesives, 2: 467-502.
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16:   Khare, A., K. Grover, P. Pawar and I. Singh, 2015. Mucoadhesive Polymers for Enhancing Retention in Ocular Drug Delivery. In: Progress in Adhesion and Adhesives, Mittal, K.L. (Ed.)., Scrivener Publishers, USA.
17:   Khare, A., P. Pawar, I. Singh and K. Grover, 2016. Design and evaluation of voriconazole loaded solid lipid nanoparticles for ophthalmic application. J. Drug Deliv., Vol. 2016. 10.1155/2016/6590361.
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18:   Kumar, P. and I. Singh, 2010. Evaluation of oleo-gum resin as directly compressible tablet excipient and release retardant. Acta Pol. Pharm. Drug Res., 67: 307-313.
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19:   Kumar, P. and I. Singh, 2010. Formulation and characterization of tramadol-loaded IPN microgels of alginate and gelatin: Optimization using response surface methodology. Acta Pharm., 60: 295-310.
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20:   Kumar, P., I. Singh, R.K. Sindhu and S. Arora, 2009. Development and characterization of chitosan and polymethylmethacrylate interpenetrating polymer network ophthalmic inserts. Int. J. Pharm Tech Res., 1: 1241-1246.
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21:   Kumar, P., R.K. Sindhu, S. Narayan and I. Singh, 2010. Honey collected from different floras of chandigarh tricity: A comparative study involving physicochemical parameters and biochemical activities. J. Dietary Suppl., 7: 303-313.
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22:   Malhotra, S., A. Khare, K. Grover, I. Singh and P. Pawar, 2014. Design and evaluation of voriconazole eye drops for the treatment of fungal keratitis. J. Pharm., Vol. 2014. 10.1155/2014/490595.
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23:   Malik, D. and I. Singh, 2012. Formulation and evaluation of press coated tablets of esomeprazole for colonic delivery. Asian J. Pharm., 6: 252-258.
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24:   Malik, K., G. Arora and I. Singh 2011. Taste masked microspheres of ofloxacin: formulation and evaluation of orodispersible tablets. Sci. Pharma. 79: 653-672.
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25:   Malik, K., G. Arora and I. Singh, 2011. Locust bean gum as superdisintegrant: Formulation and evaluation of nimesulide orodispersible tablets. Polim. Med., 41: 17-28.
PubMed  |  
26:   Malik, K., G. Arora and I. Singh, 2012. Ocimum sanctum seeds, a natural superdisintegrant: Formulation and evaluation of fast melt tablets of nimesulide. Polim. Med., 42: 49-59.
PubMed  |  
27:   Malik, K., G. Arora, I. Singh and S. Arora, 2011. Lallemantia reylenne seeds as superdisintegrants: Formulation and evaluation of nimesulide orodispersible tablets. Int. J. Pharm. Invest., 1: 192-198.
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28:   Malik, K., I. Singh, M. Nagpal and S. Arora, 2010. Atrigel: A potential parenteral controlled drug delivery system. Der Pharm. Sin., 1: 74-81.
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29:   Nagpal, M., A. Goyal, S. Kumar and I. Singh, 2012. Starch-silicon dioxide coprecipitate as superdisintegrant: Formulation and evaluation of fast disintegrating tablets. Int. J. Drug Deliv., Vol. 4. .
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30:   Pahwa, R., A.S. Rana, S. Dhiman, P. Negi and I. Singh, 2015. Cefpodoxime proxetil: An update on analytical, clinical and pharmacological aspects. J. Curr. Chem. Pharm. Sci., 5: 56-66.
31:   Pahwa, R., S. Sharna, A.S. Rana, A. Garg and I. Singh, 2016. Emergence of natural superdisintegrants in the development of orally disintegrating tablets. Indo Am. J. Pharm. Sci., 3: 777-787.
32:   Rani, P. and I. Singh, 2016. Microwave assisted synthesis and characterization of N-vinyl-2-pyrrolidone grafted locust bean gum for colonic delivery of budesonide. Drug Deliv. Lett., 6: 98-103.
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33:   Rehni, A.K., I. Singh and M. Kumar, 2008. Tramadol-induced seizurogenic effect: A possible role of opioid-dependent γ-aminobutyric acid inhibitory pathway. Basic Clin. Pharmacol. Toxicol., 103: 262-266.
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34:   Rehni, K., I. Singh, N. Singh and M. Kumar, 2008. Stem cells: Implications in experimental ischaemic stroke therapy. Stem Cell Rev., 4: 227-233.
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35:   Rehni, K., I. Singh, N. Singh, N. Bansal, S. Bansal and M. Kumar, 2008. Pharmacological modulation of Leukotriene D4 attenuates the development of opioid dependence in a mouse model of naloxone-induced opioid withdrawal syndrome. Eur. J. Pharmacol., 598: 51-56.
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36:   Sindhu, R.K., M. Chitkara, G. Kaur, P. Jaiswal, A. Kalra, I. Singh and P. Sriamornsak, 2017. Skin penetration enhancer’s in transdermal drug delivery systems. Res. J. Pharm. Technol., 10: 1809-1815.
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37:   Sindhu, R.K., P. Kumar, I. Singh and S. Arora, 2010. Hypoglycemic potential of Verbesina encelioides benth. root. Res. J. Pharm. Phytochem., 2: 41-45.
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38:   Sindhu, R.K., S. Shrivastav, I. Singh and P. Kalra, 2009. Psoriasis and herbal care: A brief review. Int. J. Pharmaceutical Res. Dev., 1: 1-8.
39:   Singh, I. and H.Y. Aboul-Enein, 2005. Pharmaceutical applications of cyclodextrins. FABAD J. Pharmaceutical Sci., 30: 203-210.
40:   Singh, I. and H.Y. Aboul-Enein, 2006. Advantages of USP apparatus IV (flow-through cell apparatus) in dissolution studies. J. Iran. Chem. Soc., 3: 220-222.
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41:   Singh, I. and H.Y. Aboul-Enein, 2007. Influence of water soluble polymers on hydroxypropyl-beta-cyclodextrin complexation of rofecoxib. Pharmazie, 62: 284-286.
PubMed  |  
42:   Singh, I. and P. Kumar, 2012. Formulation and optimization of tramadol loaded alginate beads using response surface methodology. Pak. J. Pharm. Sci., 25: 741-749.
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43:   Singh, I. and P. Kumar, 2012. Preformulation studies for direct compression suitability of cefuroxime axetil and paracetamol: A graphical representation using SeDeM diagram. Acta Pol. Pharm., 69: 87-93.
PubMed  |  
44:   Singh, I. and P. Kumar, 2016. Gums and Mucilages based Mucoadhesive Biopolymers. In: Frontiers in Biomaterials, Choonara, E. and P. Kumar (Eds.)., Bentham Science Publishers, UAE.
45:   Singh, I. and Paramjot, 2017. Bioadhesives in Drug Delivery. In: Handbook of Adhesive Technology, Taylor and Francis Publishers, Pizzi, A. and ‎K.L. Mittal (Eds.)., New York, USA.,.
46:   Singh, I. and V. Rana, 2012. Techniques for the assessment of mucoadhesion in drug delivery systems: An overview. J. Adhesion Sci. Technol., 26: 2251-2267.
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47:   Singh, I. and V. Rana, 2013. Enhancement of mucoadhesive property of polymers for drug delivery applications: A critical review. Rev. Adhesion Adhesives, 1: 271-290.
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48:   Singh, I. and V. Rana, 2013. Exploiting the interaction of polymethacrylates with iron oxide for the enhancement of mucoadhesive strength. Pak. J. Pham. Sci. .
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49:   Singh, I. and V. Rana, 2013. Iron oxide induced enhancement of mucoadhesive potential of Eudragit RLPO: Formulation, evaluation and optimization of mucoadhesive drug delivery system. Expert Opin. Drug Deliv. 10.1517/17425247.2013.790361.
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50:   Singh, I. and V. Rana, 2014. Exploiting the interaction of polymethacrylates with iron oxide for the enhancement of mucoadhesive strength. Pak. J. Pham. Sci., 27: 343-350.
PubMed  |  
51:   Singh, I. and V. Saini, 2016. Formulation and optimization of floating matrix tablets of clarithromycin using simplex lattice design. Pak. J. Pham. Sci., 29: 511-519.
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52:   Singh, I., A. Sharma and B.D. Park, 2016. Drug Delivery Applications of Cellulose Nanofibrils (CNF). In: Nanoarchitectonics for Smart Delivery and Drug Targeting, Holban, A.M. and A.M. Grumezescu (Eds.)., Elsevier Science, UK.
53:   Singh, I., A. Singh, G. Thakur and O.A. Odeku, 2014. 2014. Assessment of suspending properties of katira gum: Formulation and evaluation of nimesulide suspension. J. Pharm. Technol. Res. Manage., 1: 205-215.
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54:   Singh, I., A.K. Rehni, P. Kumar, M. Kumar and H.Y. Aboul-Enein, 2009. Carbon nanotubes: Synthesis, properties and pharmaceutical applications. Fullerenes Nanotubes Carbon Nanostructures, 17: 361-377.
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55:   Singh, I., A.K. Rehni, R. Kalra, G. Joshi and M. Kumar, 2008. Dendrimers and their pharmaceutical applications-a review. Pharmazie, 63: 491-496.
PubMed  |  
56:   Singh, I., A.K. Rehni, R. Kalra, G. Joshi, M. Kumar and H.Y. Aboul-Enein, 2007. Ion exchange resins: Drug delivery and therapeutic applications. FABAD J. Pharm. Sci., 32: 91-100.
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57:   Singh, I., B. Kaur, P. Kumar and S. Arora, 2010. Masking the unpleasant taste of etoricoxib by crosslinked acrylic polymer based ion-exchange resin complexation. Polim. Med., 40: 19-26.
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58:   Singh, I., M. Kumar, J. Kaur and H.Y. Aboul-Enein, 2008. Versatility of Radio Frequency Identification (RFID) Tags in the pharmaceutical industry. Instrumentation Sci. Technol., 36: 656-663.
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59:   Singh, I., P. Juneja, B. Kaur and P. Kumar, 2013. Pharmaceutical applications of chemometric techniques. ISRN Anal. Chem., Vol. 2013. 10.1155/2013/795178.
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60:   Singh, I., P. Kumar, H. Singh, M. Goyal and V. Rana, 2011. Formulation and evaluation of domperidone loaded mineral oil entrapped emulsion gel (MOEG) buoyant beads. Acta Pol. Pharm. Drug Res., 68: 121-126.
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61:   Singh, I., P. Kumar, M. Nagpal and S. Arora, 2011. Ion-exchange resin complexation: Masking the bitter taste of cefuroxime axetil. Revista Cubana Farmacia, 45: 171-180.
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62:   Singh, I., P. Kumar, N. Rani and V. Rana, 2009. Investigation of different lipid based materials as matrices designed to control the release of a hydrophobic drug. Int. J. Pharmaceutical Sci. Drug Res., 1: 158-163.
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63:   Singh, I., P. Kumar, R.K. Sindhu and H. Aboul-Enein, 2009. Taste sensor: The pharmaceutical taste analyser. Arch. Applied Sci. Res., 1: 271-278.
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64:   Singh, I., P. Kumar, S. Kumar and V. Rana, 2010. Formulation and development of matrix tablets of tramadol using katira gum as release modifier. Yakugaku Zasshi, 130: 1225-1231.
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65:   Singh, I., P. Kumar, S. Pahuja, V. Tung and S. Arora, 2011. Development and pharmacological evaluation of cyclodextrin complexes of etoricoxib. Acta Pol. Pharm., 68: 279-284.
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66:   Singh, I., P. Pawar, E.A. Sanusi and O.A. Odeku, 2017. Mucoadhesive Polymers for Drug Delivery Systems. In: Adhesion in Pharmaceutical, Medical and Dental Fields, Mittal, K.L. and F.M. Etzler (Eds.)., Scrivener Publishers USA.
67:   Singh, I., P. Rani and P. Kumar, 2017. Microwave assisted grafting of gums and extraction of natural materials. Mini Rev. Med. Chem., 17: 1573-1582.
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68:   Singh, I., P. Rani, G. Sareen and S. Kaur, 2018. Microwave assisted synthesis of acrylamide grafted locust bean gum for colon specific drug delivery. Curr. Microwave Chem., 5: 46-53.
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69:   Singh, I., R. Arora, H. Dhiman and R. Pahwa, 2018. Carbon quantum dots: Synthesis, characterization and biomedical applications. Turk. J. Pharm. Sci., Vol. 153 (In Press). .
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70:   Singh, I., S. Kamboj and V. Rana, 2017. Quality by design based fabrication of Iron oxide induced mucoadhesive microspheres for enhanced bioavalibility of cinnarizine. Curr. Drug Deliv., 14: 1154-1169.
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71:   Thakur, G., A. Singh and I. Singh, 2016. Chitosan-montmorillonite polymer composites: Formulation and evaluation of sustained release tablets of aceclofenac. Sci. Pharm., 84: 603-617.
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72:   Thakur, G., A. Singh and I. Singh, 2016. Formulation and evaluation of transdermal composite films of chitosan-montmorillonite for the delivery of curcumin. Int. J. Pharm. Invest., 6: 23-31.
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