Global ETD Search

51	Vaccination as a part of the pharmacists’ professional role Salem, Martin January 2021 (has links) Background: Vaccines is currently only allowed to be administrated by nurses and doctors in Sweden. Since a few years back pharmacies have started to employ nurses hourly in order provide additional vaccination service for the customers. Aim: The aim was to examine pharmacists´ thoughts regarding implementing vaccination as a part of their daily work in Sweden. The main questions in the study were identifying factors that could influence their thoughts and decisions regarding that matter. Methods: A online survey containing 27 questions divided into four categories was created and distributed using google forms. Both the time required to answer the survey and the content of the questions was validated before distribution. The survey was distributed to licensed pharmacists within Kronans Apotek in Sweden on 24-november 2020, answers was accepted for 11 days. The data was analyzed mainly with descriptive statistics and Persons Chi-squared test. Results: A total of 411 forms was returned (44% response rate).The majority of respondents (71%) were either positive or neutral regarding administration of vaccine. In comparison to other age groups, pharmacists aged 20-30 years was more willing to accept vaccination in the professional role. Men (61%) were more willing to implement vaccination than women (46%). Regarding work experience, lowest portion respondents willing to vaccinate was found within the first 2 years and after 20 years of work experience. The fear of needles (25%), increased workload (13%), unexpected allergic reactions(16%) and vaccination not being within the pharmacists’ type of task (21%) was given of the respondents as the most common reasons to not wanting to vaccinate. Conclusions: Despite the mentioned hinders the overall attitude regarding implementation of vaccination was considered positive, specially by men and by younger respondents. None of the other factor was shown to have any huge impact on the respondents regarding that matter. Vaccination Sverige Farmaceutisk yrkesroll Basic Medicine
52	Cytochrome P450 Enzymes in Bile Acid Biosynthesis and Fatty Acid Metabolism : Studies on Members of the Porcine CYP4A and CYP8B Subfamilies Lundell, Kerstin January 2003 (has links) <p>The present investigation is devoted to studies on porcine members of the cytochrome P450 4A (CYP4A) and CYP8B1 subfamilies, which are involved in bile acid biosynthesis and fatty acid metabolism. </p><p>Hyocholic acid is considered to fulfil the requirements for trihydroxy bile acids in the domestic pig (Sus scrofa) in the absence of cholic acid. Hyocholic acid is a 6α-hydroxylated product of chenodeoxycholic acid and the enzyme catalyzing the 6α-hydroxylation was cloned and found to be an atypical member of the CYP4A subfamily. The primary structure of this porcine enzyme, designated CYP4A21, shows about 75% overall sequence identity to members of the CYP4A subfamily expressed in rabbit and man. Divergent amino acids in a “signature sequence” in the active site of all hitherto known CYP4A fatty acid hydroxylases, were found to be important determinants for the 6α-hydroxylase activity of CYP4A21. </p><p>Two homologous CYP4A fatty acid hydroxylases, designated CYP4A24 and CYP4A25, expressed in pig liver and kidney were cloned. These two cDNAs encode proteins of 504 amino acids similar to CYP4A21. The overall identity between CYP4A24 and CYP4A25 is 97% compared to 94% identity to CYP4A21. Whereas CYP4A21 clearly deviates regarding structural features and catalytic activity it is more difficult to establish whether CYP4A24 and CYP4A25 are distinct enzymes or allelic variants of a single enzyme. </p><p>Cloning of the CYP4A21 gene showed a conserved organization compared to CYP4A genes in other species. A segment of the CYP4A24 gene was also cloned and comparison with the CYP4A21 gene revealed an extensive sequence identity also within introns as well as within the proximal promoter regions. This indicates that CYP4A21 and CYP4A fatty acid hydroxylases have a common origin and evolved by gene duplication. The CYP4A21 and CYP4A fatty acid hydroxylases, however, show distinct patterns of expression.</p><p>The key enzyme in cholic acid biosynthesis, CYP8B1, was markedly expressed in fetal pig liver compared to livers from young pigs. The opposite was shown for the expression of CYP4A21. An apparently conserved pig CYP8B1 gene was cloned and was intronless, similar to CYP8B1 genes from other species. The pig gene encoded a protein of 501 amino acids with 81% identity to CYP8B1 expressed in rabbit and man. Unlike other CYP8B1 genes, the pig promoter lacked a TATA-box. This might offer one explanation for the unusual expression pattern, which appears to be restricted to pig fetal life.</p> Pharmaceutical biochemistry cytochrome P450 bile acids fatty acids CYP4A CYP8B genome porcine hyocholic acid Farmaceutisk biokemi Pharmaceutical biochemistry Farmaceutisk biokemi
53	Expression of Genes Encoding for Drug Metabolism in the Small Intestine Lindell, Monica January 2003 (has links) <p>This investigation focused on the mRNA expression of drug metabolising Cytochromes P-450 (CYP) and UDP-glucuronosyltransferases (UGT) and the transport protein P-glycoprotein (Pgp) in the small intestine of humans and rats.</p><p>The mRNA expression of the investigated genes in the human small intestine (duodenum) varies between individuals giving each one of us personal profile. In general, the most dominant forms are Pgp, CYPs 2C9, 2D6, 3A4, and UGTs 1A1, 1A10, 2B7. However, which of these is the highest expressed one varies between individuals.</p><p>The correlation in expression between some CYP forms and UGT forms respectively is relatively high, which indicates that they have some regulatory mechanisms in common. It was also shown that the mRNA expression of both CYPs and UGTs may be affected by endogenous and exogenous factors. Sex and ethnic background, affected the mRNA expression of CYP2A6 and 2E1 respectively. Commonly used drugs such as acetylsalicylicacid (ASA) and omeprazole (omep) affect CYP2A6, CYP2E1 (ASA) and CYP3A4, UGT1A4 (omep). The expression of UGT1A4 is also affected by smoking. All these factors are commonly used and can therefore lead to important drug-drug interactions.</p><p>It was also shown that the human small intestinal CYP mRNA expression pattern differs from that found in the rat. The rat CYP expression is rather constant between the different individuals, and the main rat intestinal forms are CYP1A1, CYP2C, CYP2D6 and CYP3A1. The expression is the same for females and males and no difference can be seen between the different segments of the rat small intestine. As metabolic studies have often been done with rat liver we compared the mRNA expression in the two organs. We found that the mRNA expression of 1A1 was absent in the liver and that the CYP2B1, CYP2Cs, CYP2D1 and Pgp all had a stronger mRNA expression in the small intestine compared to the liver. It is therefore important to realise that results from metabolic studies on liver may not be directly extrapolated to the small intestine.</p><p>Artemisinin is an orally used drug in multidrug treatment of malaria in Southeast Asia. It has been suggested that artemisinin can induce drug metabolism and therefore be involved in drug-drug interactions. This study shows that artemisinin induces mainly the CYP2B via nuclear receptor CAR.</p> Pharmaceutical biochemistry CYPs UGTs interindividual variation small intestine human rat artemisinin CAR-receptor regulation Farmaceutisk biokemi Pharmaceutical biochemistry Farmaceutisk biokemi
54	Design and Synthesis of AT<sub>2</sub> Receptor Selective Angiotensin II Analogues Encompassing <i>β</i>- and <i>γ</i>-Turn Mimetics Rosenström, Ulrika January 2004 (has links) <p>Important information on the bioactive conformation of biologically active peptides may be obtained by studies of rigid peptides or well-defined secondary structure mimetics incorporated into pseudopeptides. The structural requirements for the interaction of angiotensin II (Ang II, Asp-Arg-Val-Tyr-Ile-His-Pro-Phe) with its AT<sub>1</sub> and AT<sub>2</sub> receptors were the subject of this study.</p><p>The main objectives of this work were to synthesize secondary structure mimetics and incorporate these into Ang II. Ang II has been suggested to adopt a turn conformation around Tyr<sup>4</sup> when interacting with its AT<sub>1</sub> receptor. Therefore, two <i>γ</i>- and one <i>β</i>-turn mimetic scaffolds based on the benzodiazepine structure were synthesized and decorated with side chains. The scaffolds replaced the turn region around Tyr<sup>4</sup>. Most of the pseudopeptides obtained after incorporation into Ang II exhibited high AT<sub>2</sub>/AT<sub>1</sub> selectivity and nanomolar affinity to the AT<sub>2</sub> receptor. One pseudopeptide encompassing a <i>β</i>-turn mimetic also displayed AT<sub>1</sub> receptor affinity.</p><p>We hypothesized that the position of the guanidino group of the arginine residue and the N-terminal end, in relation to the tyrosine side chain, was critical for AT<sub>2</sub> receptor affinity. Conformational evaluation of the pseudopeptides revealed that in all the compounds with AT<sub>2</sub> receptor affinity the arginine side chain and the N-terminal end could reach common regions, not accessible to the inactive compound. It is proposed that Ang II has a more extended bioactive conformation when binding to the AT<sub>2</sub> receptor than when binding to the AT<sub>1</sub> receptor.</p><p>Furthermore, in a Gly scan of Ang II only replacement of the arginine residue reduced the affinity for the AT<sub>2</sub> receptor considerably. Some N-terminal modified Ang II analogues were also synthesized and it was concluded that truncated Ang II analogues interact with the AT<sub>2</sub> receptor differently than Ang II.</p><p>Three of the synthesized pseudopeptides were evaluated in AT<sub>2</sub> receptor functional assays and were found to act as agonists.</p> Pharmaceutical chemistry Angiotensin II AT2 AT1 Benzodiazepine Peptidomimetics γ-turn β-turn Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
55	Design and synthesis of -turn peptidomimetics : Applications to angiotensin II Lindman, Susanna January 2001 (has links) <p> This study addresses the issue of how to convert peptides into drug-like non-peptides while retaining the biological activity at peptide receptors. Angiotensin II (Asp-Arg-Val-Tyr-Ile-His-Pro-Phe, Ang II) was used as a model peptide.</p><p> Small bioactive peptides are in most cases conformationally flexible molecules. Rigidified peptide analogues or peptidomimetic scaffolds can be introduced into the peptide, to enforce a particular backbone conformation, and thereby locate the side-chains at defined positions in space. The conformationally constrained analogues are of considerable value in determining biologically active conformation(s) of the studied peptide. The strategy applied in this thesis includes identification of non-pharmacophoric amino acid residues, rigidification, conformational analysis and incorporation of turn mimicking scaffolds in </p><p>Ang II. Several side-chain cyclized (disulfide and methylendithioether) Ang II analogues have been synthesized. The binding studies of the rigidified analogues demonstrated that the compounds designed for the AT<sub>1</sub>-receptor had affinity for both receptor subtypes, while the compounds designed for the AT<sub>2</sub>-receptor displayed high selectivity only for this receptor subtype. Conformational evaluation revealed that several of the cyclized Ang II analogues most probably adopt a <i>γ</i>-turn like conformation around Tyr-4 while interacting with the </p><p>Ang II receptor. Based on this hypothesis, three different <i>γ</i>-turn mimetics replacing amino acid residues 3-5 were designed, synthesized and incorporated into Ang II. One of the synthesized pseudopeptides, incorporating an azepine-containing <i>γ</i>-turn mimetic, exerted high binding affinity and agonistic activity. These results strongly support the theory that Ang II adopts a <i>γ</i>-turn like conformation when activating the AT<sub>1</sub> receptor. The other Ang II analogues, incorporating bicyclic and aromatic <i>γ</i>-turn mimetics, did not display any binding to the AT<sub>1</sub> receptor.</p> Pharmaceutical chemistry peptide synthesis turn mimetics molecular modelling receptor binding affinity Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
56	Regiocontrol in the Heck-reaction and fast fluorous chemistry Olofsson, Kristofer January 2001 (has links) <p>The palladium-catalysed Heck-reaction has been utilised in organic synthesis, where the introduction of aryl groups at the internal, β<i>-</i>carbon of different allylic substrates has been achieved with high regioselectivity.</p><p>The β<i>-</i>stabilising effect of silicon enhances the regiocontrol in the internal arylation of allyltrimethylsilane, while a coordination between palladium and nitrogen induces very high regioselectivities in the arylation of <i>N,N-</i>dialkylallylamines and the Boc-protected allylamine, producing β-arylated arylethylamines, which are of interest for applications in medicinal chemistry. Phthalimido-protected allylamines are arylated with poor to moderate regioselectivity.</p><p>Single-mode microwave heating can reduce the reaction times of Heck-, Stille- and radical mediated reactions drastically from approximately 20 hours to a few minutes with, in the majority of cases, retained, high regioselectivity.</p><p>The use of heavily fluorinated tin reagents, which proved to be unreactive under thermal heating, is shown to be applicable with microwave-heating and the high fluorous content of the products is utilised with the aim of improving and simplifying the work-up procedure.</p> Pharmaceutical chemistry palladium Heck-koppling regiokontroll MAO-hämmare ssao-hämmare mikrovågskemi Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
57	Catalytic Properties and Tissue Distribution of Cytochrome P450 4F8 and 4F12 : Expression of CYP4F8 in Eye Tissues and Psoriatic Lesions Stark, Katarina January 2005 (has links) <p>The human cytochrome P450 (CYP) family of monooxygenases is important for metabolism of drugs and endogenous compounds, e.g., vitamin A and D, cholesterol, steroids, fatty acids, and eicosanoids. This thesis describes the tissue distribution, catalytic properties, and possible function of CYP4F8 and CYP4F12. To this respect, methods for immunohistological analysis, and real-time PCR for analysis of their transcripts, were developed.</p><p>CYP4F8 was originally cloned from human seminal vesicles and proposed to catalyze 19-hydroxylation of prostaglandin H<sub>2 </sub>(PGH<sub>2</sub>). This notion could now be supported, as cyclooxygenase-2, CYP4F8, and microsomal prostaglandin E synthase-1 were found to be co-localized in the epithelial linings of seminal vesicles. The three enzymes were also co-localized in the suprabasal layers of epidermis, suggesting a similar function of CYP4F8 in skin. Real-time PCR showed that CYP4F8 mRNA was more than 10-fold increased in psoriatic lesions compared to non-lesional skin. CYP4F8 immunoreactivity was also found in kidney cortex, transitional epithelium, corneal epithelium, and retina. Although transcripts of all three enzymes were detectable in retina, no co-localization was found. Pro inflammatory stimuli were found to increase CYP4F8 mRNA expression in cultured epidermal and corneal keratinocytes. In these tissues CYP4F8 might oxidize fatty acids or other eicosanoids than PGH<sub>2</sub>.</p><p>CYP4F12 was originally cloned from the liver and small intestine, and found to oxidize arachidonic acid and two anti-histamines. Immunohistological studies showed that CYP4F12 immunoreactivity was present mainly in the gastrointestinal tract, e.g., stomach, ilium, and colon, but also in placenta. Although CYP4F8 and CYP4F12 have catalytic properties in common, there are important differences. CYP4F12 does not oxidize PGH<sub>2</sub>, certain eicosanoids, and fatty acids. The prominent expression in the gut suggests that CYP4F12 might be involved in oxidation of drugs.</p> Pharmaceutical pharmacology Arachidonic acid metabolism Cytochrome P450 19-Hydroxyprostaglandins Immunohistochemistry Ocular tissues Psoriasis Farmaceutisk farmakologi Pharmaceutical pharmacology Farmaceutisk farmakologi
58	Cyclic Sulfamide HIV-1 Protease Inhibitors : Design, Synthesis and Modelling Ax, Anna January 2005 (has links) <p>Ten years ago, the first protease inhibitor targeting the human immunodeficiency virus (HIV) was approved for clinical use. Highly active antiretroviral therapy (HAART), which combined protease and reverse transcriptase inhibitors, quickly became the standard therapy for treating patients infected with HIV and Acquired Immune Deficiency Syndrome (AIDS). Nevertheless, last year the AIDS pandemic reached its highest level ever. Many infected patients, mainly in the developing countries, are still without treatment. Among those patients who receive treatment, an increase in drug resistance and new-infection with drug-resistant strains are seen. To come to terms with these problems, new drugs that are efficient against resistant strains and can be produced at low cost are needed.</p><p>In this study, we have focused our research efforts on cyclic sulfamides active as HIV-1 protease inhibitors. Distinctive to this compound class, as compared to the inhibitors so far approved for clinical use, was the incorporation of a water mimic that displaces the structural water (W301) observed in the X-ray crystal co-complexes. The first part of the study was aimed at understanding the rationale behind the nonsymmetric binding mode that the inhibitor adopted when bound to the enzyme. Symmetric and nonsymmetric inhibitors were synthesized and the structure-activity relationships and preferable binding modes were rationalized with the help of Comparative Molecular Field Analysis (CoMFA).</p><p>In the second part of the study, an attempt was made to reduce the size of these inhibitors. As a result, the traditional P1/P1' substituents were removed, while the P2/P2' substituents were elongated in an attempt to reach between the binding sites. The design hypothesis was shown to be successful and inhibitors possessing nanomolar activity were identified.</p> Pharmaceutical chemistry AIDS HIV protease inhibitor aspartic protease molecular modelling 3D-QSAR CoMFA Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
59	Design and Synthesis of AT2 Receptor Selective Angiotensin II Analogues Encompassing β- and γ-Turn Mimetics Rosenström, Ulrika January 2004 (has links) Important information on the bioactive conformation of biologically active peptides may be obtained by studies of rigid peptides or well-defined secondary structure mimetics incorporated into pseudopeptides. The structural requirements for the interaction of angiotensin II (Ang II, Asp-Arg-Val-Tyr-Ile-His-Pro-Phe) with its AT1 and AT2 receptors were the subject of this study. The main objectives of this work were to synthesize secondary structure mimetics and incorporate these into Ang II. Ang II has been suggested to adopt a turn conformation around Tyr4 when interacting with its AT1 receptor. Therefore, two γ- and one β-turn mimetic scaffolds based on the benzodiazepine structure were synthesized and decorated with side chains. The scaffolds replaced the turn region around Tyr4. Most of the pseudopeptides obtained after incorporation into Ang II exhibited high AT2/AT1 selectivity and nanomolar affinity to the AT2 receptor. One pseudopeptide encompassing a β-turn mimetic also displayed AT1 receptor affinity. We hypothesized that the position of the guanidino group of the arginine residue and the N-terminal end, in relation to the tyrosine side chain, was critical for AT2 receptor affinity. Conformational evaluation of the pseudopeptides revealed that in all the compounds with AT2 receptor affinity the arginine side chain and the N-terminal end could reach common regions, not accessible to the inactive compound. It is proposed that Ang II has a more extended bioactive conformation when binding to the AT2 receptor than when binding to the AT1 receptor. Furthermore, in a Gly scan of Ang II only replacement of the arginine residue reduced the affinity for the AT2 receptor considerably. Some N-terminal modified Ang II analogues were also synthesized and it was concluded that truncated Ang II analogues interact with the AT2 receptor differently than Ang II. Three of the synthesized pseudopeptides were evaluated in AT2 receptor functional assays and were found to act as agonists. Pharmaceutical chemistry Angiotensin II AT2 AT1 Benzodiazepine Peptidomimetics γ-turn β-turn Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi
60	Design and synthesis of -turn peptidomimetics : Applications to angiotensin II Lindman, Susanna January 2001 (has links) This study addresses the issue of how to convert peptides into drug-like non-peptides while retaining the biological activity at peptide receptors. Angiotensin II (Asp-Arg-Val-Tyr-Ile-His-Pro-Phe, Ang II) was used as a model peptide. Small bioactive peptides are in most cases conformationally flexible molecules. Rigidified peptide analogues or peptidomimetic scaffolds can be introduced into the peptide, to enforce a particular backbone conformation, and thereby locate the side-chains at defined positions in space. The conformationally constrained analogues are of considerable value in determining biologically active conformation(s) of the studied peptide. The strategy applied in this thesis includes identification of non-pharmacophoric amino acid residues, rigidification, conformational analysis and incorporation of turn mimicking scaffolds in Ang II. Several side-chain cyclized (disulfide and methylendithioether) Ang II analogues have been synthesized. The binding studies of the rigidified analogues demonstrated that the compounds designed for the AT1-receptor had affinity for both receptor subtypes, while the compounds designed for the AT2-receptor displayed high selectivity only for this receptor subtype. Conformational evaluation revealed that several of the cyclized Ang II analogues most probably adopt a γ-turn like conformation around Tyr-4 while interacting with the Ang II receptor. Based on this hypothesis, three different γ-turn mimetics replacing amino acid residues 3-5 were designed, synthesized and incorporated into Ang II. One of the synthesized pseudopeptides, incorporating an azepine-containing γ-turn mimetic, exerted high binding affinity and agonistic activity. These results strongly support the theory that Ang II adopts a γ-turn like conformation when activating the AT1 receptor. The other Ang II analogues, incorporating bicyclic and aromatic γ-turn mimetics, did not display any binding to the AT1 receptor. Pharmaceutical chemistry peptide synthesis turn mimetics molecular modelling receptor binding affinity Farmaceutisk kemi Pharmaceutical chemistry Farmaceutisk kemi

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