Advanced search
Publication Cover
Expert Opinion on Drug Delivery Volume 4, 2007 - Issue 2
Submit an article Journal homepage
355
Views
112
CrossRef citations to date
0
Altmetric
Review

Mesoporous silicon: a platform for the delivery of therapeutics

Clive A Prestidge Professor, University of South Australia, Ian Wark Research Institute, Australia
,
Timothy J Barnes PostDoctoral Researcher, University of South Australia, Ian Wark Research Institute, Australia
,
Chi-Hian Lau Senior Scientist, pSiMedica Ltd, Malvern Hills Science Park, Geraldine Rd, Malvern, WR14 3SZ, UK
,
Christian Barnett Pharmaceutical Research Manager, pSiMedica Ltd, Malvern Hills Science Park, Geraldine Rd, Malvern, WR14 3SZ, UK. [email protected]
,
Armando Loni Senior Scientist, pSiMedica Ltd, Malvern Hills Science Park, Geraldine Rd, Malvern, WR14 3SZ, UK
&
Leigh Canham CSO, pSiMedica Ltd, Malvern Hills Science Park, Geraldine Rd, Malvern, WR14 3SZ, UK
Pages 101-110 | Published online: 05 Mar 2007

Bibliography

  • FERRARI M: Cancer nanotechnology: opportunities and challenges. Nat. Rev. Cancer (2005) 5:161-171.
  • UHLIR A: Electrolytic shaping of germanium and silicon. Bell Syst.Tech J. (1956) 35:333-347.
  • CANHAM LT: Bioactive silicon structure fabrication through nanoetching techniques. Adv. Mater. (1995) 7:1033-1035.
  • JANSHOFF A, Dancil KPS, Steinem C et al.: Macroporous p-type silicon fabry-perot layers. Fabrication,characterization and applications in biosensing. J. Am. Chem. Soc. (1998) 120:12108-12116
  • DROTT J, Rosengren L, Lindström K, Laurell T: Pore morphology influence on catalytic turn-over for enzyme activated porous silicon matrices. Thin Solid Films (1998) 330:161-166.
  • KOTZAR G, FREAS M, ABEL P et al.: Evaluation of MEMS materials of construction for implantable medical devices. Biomaterials (2002) 23:2737-2750.
  • ZHANG K, LOONG SL, CONNOR S et al.: Complete tumor response following intratumoral 32P BioSilicon on human hepatocellular and pancreatic carcinoma xenografts in nude mice. Clin. Cancer Res. (2005) 11(20):7532-7537.
  • GOH AS, Chung AY, Lo RH et al.: A novel approach to brachytherapy in hepatocellular carcinoma using a phosphorus 32 brachytherapy delivery device – a first-in-man study. Int. J. Radiat. Oncol. Biol. Phys. (2006) 67(3):786-792
  • LEHMANN V: Electrochemistry of Silicon. Wiley-VCH (2002):51-75
  • YONEHARA T: Epitaxial layer transfer by bond and etch back of porous silicon Appl. Phys. Lett. (1994) 64(16):2108-2110.
  • KOLASINSKI K: Silicon nanostructures from electroless electrochemical etching. Current Opinion in Solid State and Materials Science (2005) 9:73-83.
  • ASHRUF CMA, FRENCH PJ BRESSERS PMMC , KELLY JJ: Galvanic porous silicon formation without external contacts. Sens. Actuators A Phys. (1999) 74:118-122.
  • CULLIS AG, CANHAM LT, CALCOTT PDJ: The structural and luminescence properties of porous silicon. J. Appl. Phys (1997) 82(3):909-965.
  • BISI O, OSSICINI S, PAVESI L: Porous silicon: a quantum sponge for silicon based optoelectronics. Surf. Sci. Reports (2000) 38(1-3):1-126.
  • YAMAMOTO T, Endo A, Inagi Y, Ohmori T, Nakaiwa M: Evaluation of thermoporometry for characterisation of mesoporous materials. J.Colloid Interface Sci. (2005) 284(2):614-620.
  • TSUBOI T, Sakka T, Ogata YH: Structural study of porous silicon and its oxidized states by solid state high resolution 29Si NMR spectroscopy. Phys. Rev. B (1998) 58(20):13863-13869.
  • ANDERSON SHC, ELLIOTT H, WALLIS DJ, CANHAM LT, POWELL JJ: Dissolution of different forms of partially porous silicon wafers under simulated physiological conditions. Physica Status Solidi (A): Applied Research (2003) 197(2):331-335.
  • CANHAM L: Predicted biodegradability of mesoporous silicon in various sites of the human body. In: Porous Semiconductors - Science and Technology. Cullera-Valencia, Spain (2004) O44:102-103.
  • REFITT DM, JUGDAOHSINGH R, THOMPSON RP, POWELL JJ: Silicic acid: its gastrointestinal uptake and urinary excretion in man and effects on aluminium excretion. J. Inorg. Biochem. (1999) 76:141-147.
  • ILER RK: In: The chemistry of silica : solubility, polymerization, colloid and surface properties and biochemistry. J.Wiley & Sons (1979):195-202.
  • POPPLEWELL JF, King SJ, Day JP et al.: Kinetics of uptake and elimination of silicic acid by a human subject: a novel application of 32Si and accelerator mass spectrometry. J. Inorg. Biochem. (1998) 69(3):177-180.
  • SRIPANYAKORN S, JUGADAOSHSING R, Elliott H et al.: The silicon content of beer and its bioavailability in healthy volunteers. Br. J. Nutr. (2004) 91:403-409.
  • WROBEL K, BLANCO GONZALEZ E, SANZ-MEDEL A: Progress with the speciation of aluminium and silicon in serum of chronic renal patients using atomic spectroscopic techniques J. Anal. Atom. Spectrom. (1994) 9:281-284.
  • DOBBIE JW, SMITH MJB: In: Silicon Biochemistry Evered D, O’Connor M (Eds) Wiley & Sons (1986) 26:194-213.
  • BISSI E, EPTING T, BEIL A, LINDINGER G, LANG H, WIELAND H: Reference values for serum silicon in adults. Anal. Biochem. (2005) 337:130-135.
  • ROSENGREN A, WALLMAN L, BENGTSSON M, LAURELL TH, DANIELSEN N, BJURTSEN LM: Tissue reactions to porous silicon: a comparative biomaterial study. Physica Status Solidi (A): Applied Research (2000) 182:527-531.
  • PETROVA EA, Bogoslovskaya KN, Balagurov LA, Kochoradze GI et al.: Room temperature oxidation of porous silicon in air. Materials Science and Engineering (2000) B69/B70:152-156.
  • BURIAK JM, Stewart MP, Geders TW et al.: Lewis acid mediated hydrosilylation on porous silicon surfaces J. Am. Chem. Soc. (1999) 121:11491-11502.
  • BOUKHERROUB R, WAYNER DDM, LOCKWOOD DJ, CANHAM LT: Passivated luminescent porous silicon. J. Electrochem. Soc. (2001) 148(9):H91-H97.
  • MATTEI G, VALENTINI V: In Situ Functionalization of Porous Silicon during the Electrochemical Formation Process in Ethanoic Hydrofluoric Acid Solution. J. Electrochem. Soc. (2003) 125:9608-9609.
  • LOW SP, WILLIAMS KA, CANHAM LT, VOELCKER NH: Evaluation of mammalian cell adhesion on surface-modified porous silicon. Biomaterials (2006) 27:4538-4546.
  • SONG JH, SAILOR MJ: Chemical modifications of Crystalline Porous Silicon Surfaces. Comments on Inorganic Chemistry (1999) 21(1-3):69-84.
  • BURIAK JM: Organometallic chemistry on silicon and germanium surfaces. Chem.Rev. (2002) 102:1271-1308.
  • VASANTH KUMAR K, SIVANESAN S: Equilibrium data, isotherm parameters and process design for partial and complete isotherm of methylene blue onto activated carbon. J. Hazard. Mater. (2006) 134:237-244.
  • LIPINSKI C: Poor aqueous solubility – an industry wide problem in drug discovery. Am. Pharm Rev. (2002) 5:82-85.
  • LEUNER C, DRESSMAN J: Improving drug solubility for oral drug delivery using solid dispersions. Eur. J. Pharm. Biopharm. (2000) 50:47-60.
  • MERISKO-LIVERSAGE E, LIVERSAGE GG, COOPER ER: Nanosizing a formulation approach for poorly water soluble compounds. Eur. J. Pharm. Biopharm. (2003) 18:113-120.
  • SINGH M, SHARMA R, BANDERJEE UC: Biotechnological applications of cyclodextrins. Biotechnol. Adv. (2002) 20:341-359.
  • HU J, JOHNSTON KP, WILLIAMS III RO: Spray freeze drying into liquid (SFL) particle engineering technology to enhance dissolution of poorly water soluble drugs: organic solvent versus organic/ aqueous co-solvent systems. Eur. J. Pharm. Sci. (2003) 20:295-303.
  • GINTY PJ, WHITAKER MJ, SHAKESHEFF KM, HOWDLE SM: Drug delivery goes supercritical. Materials Today (2005) 8(1):42-48.
  • POUTON CW: Formulation of poorly water-soluble drugs for oral administration: Physiochemical and physiological issues and the lipid formulation classification system. Eur. J. Pharm. Sci. (2006) 29(3-4):278-287.
  • LEHTO V-P, VÄHÄ-HEIKKILÄ K, PASKI J, SALONEN J: Use of thermoanalytical methods in quantification of drug load in mesoporous silicon microparticles. Journal of Thermal Analysis and Calorimetry (2005) 80(2):393-397.
  • LAU CH, TOTOLICI M, BARNETT C: Enhanced dissolution of poorly soluble drugs using mesoporous silicon. AAPS PharmSci. (2006) W4143.
  • SHABIR QA, LAU CH, YANG HL, SAFFIE RS, CANHAM LT: Enhanced dissolution kinetics of poorly soluble drugs using mesoporous silicon. In: Porous Semiconductors - Science and Technology. Stiges, Spain (2006): 2-58.
  • SALONEN J, LAITINEN L, KAUKONEN AM et al.: Mesoporous silicon microparticles for oral drug delivery: loading and release of five model drugs. J. Control. Release. (2005) 108:362-374.
  • BULPITT P, CONNOR SE: Improved bioavailability of cyclosporine A using porous silicon: single dose pharmacokinetic study in the rat. Proceedings of the 33rd Annual Meeting and Exposition of the Controlled Release Society. Vienna, Austria (2006) 849.
  • BIRNBAUM DT, BRANNON-PEPPAS L: Microparticle drug delivery systems. In: Drug Delivery Systems in Cancer Therapy. Brown DM (Ed.) Humana Press inc., Totowa, NJ (2003):117-136.
  • VICCARI L, CANTON D, ZAFFARONI N, VILLA R, TORMEN M, DI FABRIZIO E: Porous silicon as a drug carrier for controlled delivery of doxorubicin anticancer agent. Microelectronic Engineering (2006) 83:1598-1601.
  • SAFFIE-SIEBERT RS, DRAGE D, TORABI-POUR N et al: Application of BioSilicon in drug delivery and drug targeting: Intratumoral therapy. AAPS J. (2004) 6(4) Abstr. W5245.
  • ANGLIN EJ, SCHWARTZ MP, NG VP, PERELMAN LA, SAILOR MJ: Engineering the chemistry and nanostructure of porous silicon Fabry-Pérot films for loading and release of a steroid. Langmuir (2004) 20:11264-11269.
  • SINHA VR, TREHAN A: Biodegradable microspheres for protein delivery. J. Control. Release. (2003) 90:261-280.
  • SHABIR QA, LAU CH, TOTOLICI M, SAFFIE RS, CANHAM LT: Porous silicon technology for controlled release of highly soluble compounds: Pilot study for a model peptide. In: Porous Semiconductors - Science and Technology. Stiges, Spain (2006):2-56.
  • FORAKER AB, WALCZAK RJ, COHEN MH, BOIARSKI TA, GROVE CF, SWAAN PW: Microfabricated Porous Silicon Particles Enhance Paracellular Delivery of Insulin Across Intestinal Caco-2 Cell Monolayers. Pharm. Res. (2003) 20(1):110-116.
  • KARLSSON LM, TENGVALL P, LUNDSTROM I, ARWIN H: Penetration and loading of human serum albumin in porous silicon layers with different pore sizes and thicknesses. J. Colloid Interface Sci. (2003) 266(1):40-47.
  • RUSO JM, TABOADA P, VARELA LM, ATTWOOD D, MOSQUERA V: Adsorption of an amphiphilic penicillin onto human serum albumin: Characterisation of the complex. Biophys. Chem. (2001) 92:141-153.
  • PRESTIDGE CA, BARNES TJ, MIERCZYNSKA-VASILEV A et al.: Peptide and protein loading into porous silicon wafers. Physica Status Solidi (A): Applied Research (2007) (in press).
  • PRESTIDGE CA, BARNES TJ, MIERCZYNSKA-VASILEV A, SKINNER W, PEDDIE F, LAU CH, BARNETT C: Loading and release of a model protein from porous silicon powders. Phys. Stat. Sol A (2007) (In press).
  • TAKEUCHI H, NAGIRA S, YAMAMOTO H, KAWASHIMA Y: Solid dispersion particles of amorphous indomethacin with fine porous silica particles by using spray-drying method. Int. J. Pharm. (2005) 293:155-164.
  • DEGUSSA AG: Technical bulletin Fine Particles (No. 11), Company Publication, Frankfurt, Germany, 4th edition (2006).
  • MONKHOUSE DC, LACK JL: Use of adsorbents in enhancement of drug dissolution I. J. PharM. Sci. (1972) 61(9):1430-1435
  • FRIEDRICH H, FUSSNEGGER B, KOLTER K, BODMEIER R: Dissolution rate improvement of poorly water soluble drugs obtained by adsorbing solutions of drugs in hydrophilic solvents onto high surface area carriers. Eur. J. Pharm. Biopharm. (2006) 62:171-177.
  • SMIRNOVA I, SUTTIRUENGWONG S, ARLT W: Feasibility study of hydrophilic and hydrophobic silica aerogels as drug delivery systems. Journal of Non-Crystalline Solids (2004) 350:54-60.
  • SANTINI J.T, RICHARDS AC, SCHEIDT R, CIMA MJ, LANGER R: Microchips as controlled drug-delivery devices. Angewandte Chemie (2000) 39(14):2396-2407.
  • LEONG WY, LONI A, CANHAM LT: Electrically enhanced erosion of porous silicon in electrolyte by pH modulation. Physica Status Solidi (A): Applied Research (2007) (In press).
  • REDFERN P: Chapter 11. In: Chronotherapeutics. Pharmaceutical Press, UK (2003).
  • PRAUSNITZ MR, MITRAGOTRI S, LANGER R: Current status and future potential of transdermal drug delivery. Nat. Rev. Drug Discov. (2004) 3:115-124.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.