Synthesis, characterisation and applications of new polyesters for drug delivery

In recent years, a number of reports have focused on the use of polyesters in drug delivery due to their intrinsic biocompatibility and biodegradability. In this thesis, aliphatic polyesters were synthesized by polycondensation reaction and ring opening polymerization reactions. The properties of the polymers and drug delivery potential of the resultant materials were evaluated. In the polycondensation reactions, a series of aliphatic polyesters of similar molecular weight were synthesized by reacting 1,10-decanediol with different ratios of succinic acid/phenylsuccinic acid and the effects of phenyl group side-chain substitution on polymer properties was investigated. A solvent-free melt polycondensation method using scandium (III) triflate as catalyst at an industrially relevant temperature (120 °C) was used. As the phenyl content increased, the polymers changed from semicrystalline to amorphous in state. The loading capability of polymers was checked by formulating nanoparticles containing coumarin 6 as a fluorescent dye analogue of active drugs. A polymer with a 70/30 ratio of succinic acid and phenylsuccinic acid showed the highest dye loading among the set of materials synthesised. This polymer was found to be degradable over time under selected experimental conditions. Amphiphilic block co-polymers from the PluronicTM class were used to stabilize, in PBS, nanoparticles formed from these polyesters by nanoprecipitation routes. The metabolic activity, cell membrane integrity and lysosomal functions of C3A cells dosed with the polymers were determined to observe the cytocompatibility of the highest dye-loaded nanoparticles. Activity relative to undosed C3A cells was retained at more than 80% in the all of the assays. Imaging of Pluronic coated and uncoated nanoparticles in C3A cells suggested that both types of the nanoparticles were endocytosed in the early stage of the study (within 10 min). The internalization of nanoparticles was increased progressively over the study time. These results indicated the possible utility of the selected polymers in diagnostic and delivery applications. Ring opening polymerization (ROP) reactions were used for the synthesis of a diblock (mPEG-b-PεDL) and a triblock (PεDL-b-PEG-b-PεDL) copolymer from a seven membered ε-decalactone (ε-DL) monomer obtained from renewable sources. A diblock (mPEG-b-PεDL) copolymer was compared with structurally similar mPEG-b-PCL copolymer synthesized via ROP of ε-caprolactone (ε-CL) monomer, which can be considered as a non-renewable monomer. A six membered δ-decalactone (δ-DL) was also used for the synthesis of a diblock copolymer (mPEG-b-PδDL) to compare the reaction kinetics and properties of the copolymers. The copolymers were prepared via bulk polymerisation using 1,5,7-Triazabicyclo[4.4.0]dec-5-ene (TBD) as a metal-free catalyst to replace the conventionally used stannous octoate [Sn(Oct)2]. A higher polymerization efficiency was achived with TBD compared to Sn(Oct)2 catalyst. However, a notable difference in the reaction temperature required for ε-DL and δ-DL polymerization was observed. The comparison with a structural analogue, i.e. ε-CL, demonstrated that the ε-DL polymerization was inhibited due to the presence of the alkyl chain of ε-DL monomer. However, a higher reaction time (12 h for TBD and 24 h for Sn(Oct)2) in CROP of ε-DL was addressed by using microwave based ring opening polymerization (MROP) reaction. The MROP was adopted as a ‘green’ and cheap heating method alternative to conventional heating (CROP) for the synthesis of mPEG-b-PεDL diblock copolymers using TBD as a catalyst. All the reactions were conducted in bulk. The MROP was designed based on the dielectric properties of all the reacting materials, as it was found that ε-DL monomers showed good absorption of MW radiation (tanδ>0.5). Accordingly, MROP resulted in a higher rate of ε-DL polymerization compared to CROP but comparison of the synthesis of mPEG-b-PCL copolymer by MROP indicated that the presence of the alkyl chain in ε-DL monomer significantly reduced the rate of polymerization. The synthesized mPEG-b-PεDL copolymer was investigated as a potential drug delivery vehicle for solubilization and controlled delivery of indomethacin. The indomethacin loading and release from mPEG-b-PεDL micelles (amorphous core) was compared against well-established mPEG-b-PCL micelles (semicrystalline core). The drug-polymer compatibility was also determined through a predictive computational approach to access the drug solubilisation (or drug loading) into hydrated micelles. The micelles were prepared by solvent evaporation method and characterized for size, morphology, indomethacin (IND) loading and release. Both of the micelle formulations showed a uniform distribution of spherical micelles with size sp (mPEG)> sp (PCL). The predictions suggested that more IND should encapsulate within the micelles with PCL core compared to PDL core, but the IND loading experiments revealed an overall higher loading in PεDL core (6.55 wt%) compared to PCL core (5.39 wt%) (P < 0.05, unpaired student’s t-test). However, consideration of the IND loading per unit volume of the micelles revealed that the PCL cored micelles was able to load 1.5 times more compared to the PεDL cored micelles. This result illustrated the higher compatibility of the IND with PCL core in accordance with the solubility parameter calculations. These data also suggested that the overall higher IND loading in PεDL core was attributable to the amorphous nature of the core which increased the core volume by 1.81 times compared to the PCL core. Drug release studies showed the sustained release pattern from both of the micelle systems although the semicrystalline PCL core (80% drug release in 110 h) was able to release the drug for a longer period compared to PεDL core (80% drug release in 72 h). Cell viability tests demonstrated the cytocompatibility of the mPEG-b-PεDL polymer. The micelles were internalized effectively in the early stages of the study and progressively increased with time. The results of the present thesis suggested that novel aliphatic polyester can be good candidates for the drug delivery applications and further studies can explore the possible applications of these polymers in the biomedical field

“Time is brain”- management of the patient with iatrogenic intracerebral hemorrhage

The brain is a critical organ of our body, which depends on a continuous supply of oxygen and glucose for normal functioning. An inadequate supply of oxygen and glucose can trigger a characteristic pathophysiological cascade leading to neuronal death. Multiple neuroprotective strategies have been developed blocking one or more steps along this cascade. Here, we report the case of an intracerebral hemorrhage during neurointerventional procedure in a catheterization laboratory. Accurate decision and timely intervention of neuroprotective strategies resulted in the complete neurological recovery of the patient

Synthesis, characterisation and applications of new polyesters for drug delivery

In recent years, a number of reports have focused on the use of polyesters in drug delivery due to their intrinsic biocompatibility and biodegradability. In this thesis, aliphatic polyesters were synthesized by polycondensation reaction and ring opening polymerization reactions. The properties of the polymers and drug delivery potential of the resultant materials were evaluated. In the polycondensation reactions, a series of aliphatic polyesters of similar molecular weight were synthesized by reacting 1,10-decanediol with different ratios of succinic acid/phenylsuccinic acid and the effects of phenyl group side-chain substitution on polymer properties was investigated. A solvent-free melt polycondensation method using scandium (III) triflate as catalyst at an industrially relevant temperature (120 °C) was used. As the phenyl content increased, the polymers changed from semicrystalline to amorphous in state. The loading capability of polymers was checked by formulating nanoparticles containing coumarin 6 as a fluorescent dye analogue of active drugs. A polymer with a 70/30 ratio of succinic acid and phenylsuccinic acid showed the highest dye loading among the set of materials synthesised. This polymer was found to be degradable over time under selected experimental conditions. Amphiphilic block co-polymers from the PluronicTM class were used to stabilize, in PBS, nanoparticles formed from these polyesters by nanoprecipitation routes. The metabolic activity, cell membrane integrity and lysosomal functions of C3A cells dosed with the polymers were determined to observe the cytocompatibility of the highest dye-loaded nanoparticles. Activity relative to undosed C3A cells was retained at more than 80% in the all of the assays. Imaging of Pluronic coated and uncoated nanoparticles in C3A cells suggested that both types of the nanoparticles were endocytosed in the early stage of the study (within 10 min). The internalization of nanoparticles was increased progressively over the study time. These results indicated the possible utility of the selected polymers in diagnostic and delivery applications. Ring opening polymerization (ROP) reactions were used for the synthesis of a diblock (mPEG-b-PεDL) and a triblock (PεDL-b-PEG-b-PεDL) copolymer from a seven membered ε-decalactone (ε-DL) monomer obtained from renewable sources. A diblock (mPEG-b-PεDL) copolymer was compared with structurally similar mPEG-b-PCL copolymer synthesized via ROP of ε-caprolactone (ε-CL) monomer, which can be considered as a non-renewable monomer. A six membered δ-decalactone (δ-DL) was also used for the synthesis of a diblock copolymer (mPEG-b-PδDL) to compare the reaction kinetics and properties of the copolymers. The copolymers were prepared via bulk polymerisation using 1,5,7-Triazabicyclo[4.4.0]dec-5-ene (TBD) as a metal-free catalyst to replace the conventionally used stannous octoate [Sn(Oct)2]. A higher polymerization efficiency was achived with TBD compared to Sn(Oct)2 catalyst. However, a notable difference in the reaction temperature required for ε-DL and δ-DL polymerization was observed. The comparison with a structural analogue, i.e. ε-CL, demonstrated that the ε-DL polymerization was inhibited due to the presence of the alkyl chain of ε-DL monomer. However, a higher reaction time (12 h for TBD and 24 h for Sn(Oct)2) in CROP of ε-DL was addressed by using microwave based ring opening polymerization (MROP) reaction. The MROP was adopted as a ‘green’ and cheap heating method alternative to conventional heating (CROP) for the synthesis of mPEG-b-PεDL diblock copolymers using TBD as a catalyst. All the reactions were conducted in bulk. The MROP was designed based on the dielectric properties of all the reacting materials, as it was found that ε-DL monomers showed good absorption of MW radiation (tanδ>0.5). Accordingly, MROP resulted in a higher rate of ε-DL polymerization compared to CROP but comparison of the synthesis of mPEG-b-PCL copolymer by MROP indicated that the presence of the alkyl chain in ε-DL monomer significantly reduced the rate of polymerization. The synthesized mPEG-b-PεDL copolymer was investigated as a potential drug delivery vehicle for solubilization and controlled delivery of indomethacin. The indomethacin loading and release from mPEG-b-PεDL micelles (amorphous core) was compared against well-established mPEG-b-PCL micelles (semicrystalline core). The drug-polymer compatibility was also determined through a predictive computational approach to access the drug solubilisation (or drug loading) into hydrated micelles. The micelles were prepared by solvent evaporation method and characterized for size, morphology, indomethacin (IND) loading and release. Both of the micelle formulations showed a uniform distribution of spherical micelles with size sp (mPEG)> sp (PCL). The predictions suggested that more IND should encapsulate within the micelles with PCL core compared to PDL core, but the IND loading experiments revealed an overall higher loading in PεDL core (6.55 wt%) compared to PCL core (5.39 wt%) (P < 0.05, unpaired student’s t-test). However, consideration of the IND loading per unit volume of the micelles revealed that the PCL cored micelles was able to load 1.5 times more compared to the PεDL cored micelles. This result illustrated the higher compatibility of the IND with PCL core in accordance with the solubility parameter calculations. These data also suggested that the overall higher IND loading in PεDL core was attributable to the amorphous nature of the core which increased the core volume by 1.81 times compared to the PCL core. Drug release studies showed the sustained release pattern from both of the micelle systems although the semicrystalline PCL core (80% drug release in 110 h) was able to release the drug for a longer period compared to PεDL core (80% drug release in 72 h). Cell viability tests demonstrated the cytocompatibility of the mPEG-b-PεDL polymer. The micelles were internalized effectively in the early stages of the study and progressively increased with time. The results of the present thesis suggested that novel aliphatic polyester can be good candidates for the drug delivery applications and further studies can explore the possible applications of these polymers in the biomedical field

Scanning electron microscopic evaluation of efficacy of 17% Ethylenediaminetetraacetic acid and chitosan for smear layer removal with ultrasonics: An In vitro study

Introduction: The main aim of root canal treatment is cleaning, shaping and then obturating three dimensionally to prevent reinfection. This includes chemicomechanical cleansing by instrumentation and the use of irrigating solutions. Therefore, the purpose of this study was to compare the smear layer removal from root canal dentine subjected to two root canal irrigants, 17% EDTA and 0.2% Chitosan, a new irrigant using Scanning Electron Microscope. Methodology: 40 single rooted premolars were decoronated followed by instrumentation with I Race files and intermediate irrigation with 3% sodium hypochlorite and activation with ultrasonics. Then the samples were longitudinally sectioned and place in the respective test solutions and their controls for 5 minutes. Scanning Electron Microscopic evaluation was further carried out. Results: The results of the present study indicates that the Chitosan which was proved effective in removing smear layer. Conclusion: A moderate concentration of 0.2% chitosan removes the smear layer with greater efficiency

Ulkomaalaisten asiakkaiden hotellin valintaan vaikuttavat tekijät. Case Sokos Hotel Ilves

Tamperella on lukuisia hotelleja ja hostelleja, joista asiakas voi valita mieleisensä majoituspaikan saapuessaan kaupunkiin. Mikä saa asiakkaan valitsemaan tietyn hotellin näiden kaikkien vaihtoehtojen joukosta? Tutkimuksen tavoite oli selvittää, miksi ulkomaalaiset asiakkaat ovat valinneet Tampereen hotelleista juuri Sokos Hotel Ilveksen viipymänsä ajaksi. Suomeen saapuvien ulkomaalaisten asiakkaiden määrä on kasvussa ja heidän viipymänsä keston keskiarvo on suurempi kuin suomalaisilla asiakkailla. Siksi heidän ostopäätösprosessinsa tutkimisen merkitys on yhä tärkeämpää. Tutkimuksen teoriaosa käsittelee ostopäätösprosessia, ostohaluun vaikuttavia tekijöitä ja itse ostoprosessia. Tutkimuks toteutettiin kvalitatiisena tutkimuksena ja tiedonkeruumenetelmänä käytettiin kyselylomaketta. Kyselyn vastaajina toimivat Sokos Hotel Ilvekseen saapuvat ulkomaalaiset asiakkaat. Tutkimuksen aineisto käsiteltiin hyödyntämällä SPSS- ohjelmaa sekä Microsoft Exceliä. Kyselylomakkeiden avulla kerätyn datan lisäksi tuloksien analysoinnissa hyödynnettiin myös tekemiäni havaintoja työskennellessäni itse Ilveksen vastaanotossa. Tutkimuksen tulokset osoittavat eroja Sokos Hotel Ilveksen ulkomaalaisten asiakkaiden ostopäätösprosessissa riippuen asiakkaan demograafisesta, sosisaalisesta ja psykologisesta taustasta. Näitä eroja on tarkasteltu vertaamalla mm. työ- ja vapaa-ajan matkustajien vastauksia. Tuloksia voidaan hyödyntää segmentoinnin ja markkinoinnin kehittämisessä.There are many hotels and hostels in Tampere to choose from when a customer arrives in Tampere. What makes the customer choose a certain hotel from the range of choices he/she has? The purpose of the study was to find out why foreign customers who arrive at Tampere choose Sokos Hotel Ilves from all the hotels in the city. The number of foreign customers who come to Finland is growing and their average length of the stay is longer than the Finnish customers'. For that reason it is even more meaningful to research the foreign customers' consumer behaviour more. The theoretical part of my study deals with the buying decision process and factors that affect consumers' needs to buy different things. The study was conducted using qualitative methods. The data was collected by using questionnaires. The respondents were foreign customers who arrived in Sokos Hotel Ilves. The data was analyzed using SPSS software and Microsoft Excel. In addition to analysing the results, I also used the observations I made during the time I was working as a receptionist in Ilves. The results of the study show that there are differences in the buying process depending on the customers' demographical, social and psychological background. The differences between the respondents are compared by dividing them into different groups such as business and leisure travellers. The results of the study can be useful in segmentation and marketing