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  • Product List March 2019 - Page 1 of 53
    Wessex has been sourcing and supplying active substances to medicine manufacturers since its incorporation in 1994. We supply from known, trusted partners working to full cGMP and with full regulatory support. Please contact us for details of the following products. Product CAS No. ( R)-2-Methyl-CBS-oxazaborolidine 112022-83-0 (-) (1R) Menthyl Chloroformate 14602-86-9 (+)-Sotalol Hydrochloride 959-24-0 (2R)-2-[(4-Ethyl-2, 3-dioxopiperazinyl) carbonylamino]-2-phenylacetic 63422-71-9 acid (2R)-2-[(4-Ethyl-2-3-dioxopiperazinyl) carbonylamino]-2-(4- 62893-24-7 hydroxyphenyl) acetic acid (r)-(+)-α-Lipoic Acid 1200-22-2 (S)-1-(2-Chloroacetyl) pyrrolidine-2-carbonitrile 207557-35-5 1,1'-Carbonyl diimidazole 530-62-1 1,3-Cyclohexanedione 504-02-9 1-[2-amino-1-(4-methoxyphenyl) ethyl] cyclohexanol acetate 839705-03-2 1-[2-Amino-1-(4-methoxyphenyl) ethyl] cyclohexanol Hydrochloride 130198-05-9 1-[Cyano-(4-methoxyphenyl) methyl] cyclohexanol 93413-76-4 1-Chloroethyl-4-nitrophenyl carbonate 101623-69-2 2-(2-Aminothiazol-4-yl) acetic acid Hydrochloride 66659-20-9 2-(4-Nitrophenyl)ethanamine Hydrochloride 29968-78-3 2,4 Dichlorobenzyl Alcohol (2,4 DCBA) 1777-82-8 2,6-Dichlorophenol 87-65-0 2.6 Diamino Pyridine 136-40-3 2-Aminoheptane Sulfate 6411-75-2 2-Ethylhexanoyl Chloride 760-67-8 2-Ethylhexyl Chloroformate 24468-13-1 2-Isopropyl-4-(N-methylaminomethyl) thiazole Hydrochloride 908591-25-3 4,4,4-Trifluoro-1-(4-methylphenyl)-1,3-butane dione 720-94-5 4,5,6,7-Tetrahydrothieno[3,2,c] pyridine Hydrochloride 28783-41-7 4-Chloro-N-methyl-piperidine 5570-77-4
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  • Predictive QSAR Tools to Aid in Early Process Development of Monoclonal Antibodies
    Predictive QSAR tools to aid in early process development of monoclonal antibodies John Micael Andreas Karlberg Published work submitted to Newcastle University for the degree of Doctor of Philosophy in the School of Engineering November 2019 Abstract Monoclonal antibodies (mAbs) have become one of the fastest growing markets for diagnostic and therapeutic treatments over the last 30 years with a global sales revenue around $89 billion reported in 2017. A popular framework widely used in pharmaceutical industries for designing manufacturing processes for mAbs is Quality by Design (QbD) due to providing a structured and systematic approach in investigation and screening process parameters that might influence the product quality. However, due to the large number of product quality attributes (CQAs) and process parameters that exist in an mAb process platform, extensive investigation is needed to characterise their impact on the product quality which makes the process development costly and time consuming. There is thus an urgent need for methods and tools that can be used for early risk-based selection of critical product properties and process factors to reduce the number of potential factors that have to be investigated, thereby aiding in speeding up the process development and reduce costs. In this study, a framework for predictive model development based on Quantitative Structure- Activity Relationship (QSAR) modelling was developed to link structural features and properties of mAbs to Hydrophobic Interaction Chromatography (HIC) retention times and expressed mAb yield from HEK cells. Model development was based on a structured approach for incremental model refinement and evaluation that aided in increasing model performance until becoming acceptable in accordance to the OECD guidelines for QSAR models.
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  • (12) Patent Application Publication (10) Pub. No.: US 2006/0110428A1 De Juan Et Al
    US 200601 10428A1 (19) United States (12) Patent Application Publication (10) Pub. No.: US 2006/0110428A1 de Juan et al. (43) Pub. Date: May 25, 2006 (54) METHODS AND DEVICES FOR THE Publication Classification TREATMENT OF OCULAR CONDITIONS (51) Int. Cl. (76) Inventors: Eugene de Juan, LaCanada, CA (US); A6F 2/00 (2006.01) Signe E. Varner, Los Angeles, CA (52) U.S. Cl. .............................................................. 424/427 (US); Laurie R. Lawin, New Brighton, MN (US) (57) ABSTRACT Correspondence Address: Featured is a method for instilling one or more bioactive SCOTT PRIBNOW agents into ocular tissue within an eye of a patient for the Kagan Binder, PLLC treatment of an ocular condition, the method comprising Suite 200 concurrently using at least two of the following bioactive 221 Main Street North agent delivery methods (A)-(C): Stillwater, MN 55082 (US) (A) implanting a Sustained release delivery device com (21) Appl. No.: 11/175,850 prising one or more bioactive agents in a posterior region of the eye so that it delivers the one or more (22) Filed: Jul. 5, 2005 bioactive agents into the vitreous humor of the eye; (B) instilling (e.g., injecting or implanting) one or more Related U.S. Application Data bioactive agents Subretinally; and (60) Provisional application No. 60/585,236, filed on Jul. (C) instilling (e.g., injecting or delivering by ocular ion 2, 2004. Provisional application No. 60/669,701, filed tophoresis) one or more bioactive agents into the Vit on Apr. 8, 2005. reous humor of the eye. Patent Application Publication May 25, 2006 Sheet 1 of 22 US 2006/0110428A1 R 2 2 C.6 Fig.
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  • Customs Tariff - Schedule
    CUSTOMS TARIFF - SCHEDULE 99 - i Chapter 99 SPECIAL CLASSIFICATION PROVISIONS - COMMERCIAL Notes. 1. The provisions of this Chapter are not subject to the rule of specificity in General Interpretative Rule 3 (a). 2. Goods which may be classified under the provisions of Chapter 99, if also eligible for classification under the provisions of Chapter 98, shall be classified in Chapter 98. 3. Goods may be classified under a tariff item in this Chapter and be entitled to the Most-Favoured-Nation Tariff or a preferential tariff rate of customs duty under this Chapter that applies to those goods according to the tariff treatment applicable to their country of origin only after classification under a tariff item in Chapters 1 to 97 has been determined and the conditions of any Chapter 99 provision and any applicable regulations or orders in relation thereto have been met. 4. The words and expressions used in this Chapter have the same meaning as in Chapters 1 to 97. Issued January 1, 2020 99 - 1 CUSTOMS TARIFF - SCHEDULE Tariff Unit of MFN Applicable SS Description of Goods Item Meas. Tariff Preferential Tariffs 9901.00.00 Articles and materials for use in the manufacture or repair of the Free CCCT, LDCT, GPT, UST, following to be employed in commercial fishing or the commercial MT, MUST, CIAT, CT, harvesting of marine plants: CRT, IT, NT, SLT, PT, COLT, JT, PAT, HNT, Artificial bait; KRT, CEUT, UAT, CPTPT: Free Carapace measures; Cordage, fishing lines (including marlines), rope and twine, of a circumference not exceeding 38 mm; Devices for keeping nets open; Fish hooks; Fishing nets and netting; Jiggers; Line floats; Lobster traps; Lures; Marker buoys of any material excluding wood; Net floats; Scallop drag nets; Spat collectors and collector holders; Swivels.
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  • )&F1y3x PHARMACEUTICAL APPENDIX to THE
    )&f1y3X PHARMACEUTICAL APPENDIX TO THE HARMONIZED TARIFF SCHEDULE )&f1y3X PHARMACEUTICAL APPENDIX TO THE TARIFF SCHEDULE 3 Table 1. This table enumerates products described by International Non-proprietary Names (INN) which shall be entered free of duty under general note 13 to the tariff schedule. The Chemical Abstracts Service (CAS) registry numbers also set forth in this table are included to assist in the identification of the products concerned. For purposes of the tariff schedule, any references to a product enumerated in this table includes such product by whatever name known. Product CAS No. Product CAS No. ABAMECTIN 65195-55-3 ACTODIGIN 36983-69-4 ABANOQUIL 90402-40-7 ADAFENOXATE 82168-26-1 ABCIXIMAB 143653-53-6 ADAMEXINE 54785-02-3 ABECARNIL 111841-85-1 ADAPALENE 106685-40-9 ABITESARTAN 137882-98-5 ADAPROLOL 101479-70-3 ABLUKAST 96566-25-5 ADATANSERIN 127266-56-2 ABUNIDAZOLE 91017-58-2 ADEFOVIR 106941-25-7 ACADESINE 2627-69-2 ADELMIDROL 1675-66-7 ACAMPROSATE 77337-76-9 ADEMETIONINE 17176-17-9 ACAPRAZINE 55485-20-6 ADENOSINE PHOSPHATE 61-19-8 ACARBOSE 56180-94-0 ADIBENDAN 100510-33-6 ACEBROCHOL 514-50-1 ADICILLIN 525-94-0 ACEBURIC ACID 26976-72-7 ADIMOLOL 78459-19-5 ACEBUTOLOL 37517-30-9 ADINAZOLAM 37115-32-5 ACECAINIDE 32795-44-1 ADIPHENINE 64-95-9 ACECARBROMAL 77-66-7 ADIPIODONE 606-17-7 ACECLIDINE 827-61-2 ADITEREN 56066-19-4 ACECLOFENAC 89796-99-6 ADITOPRIM 56066-63-8 ACEDAPSONE 77-46-3 ADOSOPINE 88124-26-9 ACEDIASULFONE SODIUM 127-60-6 ADOZELESIN 110314-48-2 ACEDOBEN 556-08-1 ADRAFINIL 63547-13-7 ACEFLURANOL 80595-73-9 ADRENALONE
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  • Infant Antibiotic Exposure Search EMBASE 1. Exp Antibiotic Agent/ 2
    Infant Antibiotic Exposure Search EMBASE 1. exp antibiotic agent/ 2. (Acedapsone or Alamethicin or Amdinocillin or Amdinocillin Pivoxil or Amikacin or Aminosalicylic Acid or Amoxicillin or Amoxicillin-Potassium Clavulanate Combination or Amphotericin B or Ampicillin or Anisomycin or Antimycin A or Arsphenamine or Aurodox or Azithromycin or Azlocillin or Aztreonam or Bacitracin or Bacteriocins or Bambermycins or beta-Lactams or Bongkrekic Acid or Brefeldin A or Butirosin Sulfate or Calcimycin or Candicidin or Capreomycin or Carbenicillin or Carfecillin or Cefaclor or Cefadroxil or Cefamandole or Cefatrizine or Cefazolin or Cefixime or Cefmenoxime or Cefmetazole or Cefonicid or Cefoperazone or Cefotaxime or Cefotetan or Cefotiam or Cefoxitin or Cefsulodin or Ceftazidime or Ceftizoxime or Ceftriaxone or Cefuroxime or Cephacetrile or Cephalexin or Cephaloglycin or Cephaloridine or Cephalosporins or Cephalothin or Cephamycins or Cephapirin or Cephradine or Chloramphenicol or Chlortetracycline or Ciprofloxacin or Citrinin or Clarithromycin or Clavulanic Acid or Clavulanic Acids or clindamycin or Clofazimine or Cloxacillin or Colistin or Cyclacillin or Cycloserine or Dactinomycin or Dapsone or Daptomycin or Demeclocycline or Diarylquinolines or Dibekacin or Dicloxacillin or Dihydrostreptomycin Sulfate or Diketopiperazines or Distamycins or Doxycycline or Echinomycin or Edeine or Enoxacin or Enviomycin or Erythromycin or Erythromycin Estolate or Erythromycin Ethylsuccinate or Ethambutol or Ethionamide or Filipin or Floxacillin or Fluoroquinolones
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  • Classification Decisions Taken by the Harmonized System Committee from the 47Th to 60Th Sessions (2011
    CLASSIFICATION DECISIONS TAKEN BY THE HARMONIZED SYSTEM COMMITTEE FROM THE 47TH TO 60TH SESSIONS (2011 - 2018) WORLD CUSTOMS ORGANIZATION Rue du Marché 30 B-1210 Brussels Belgium November 2011 Copyright © 2011 World Customs Organization. All rights reserved. Requests and inquiries concerning translation, reproduction and adaptation rights should be addressed to [email protected]. D/2011/0448/25 The following list contains the classification decisions (other than those subject to a reservation) taken by the Harmonized System Committee ( 47th Session – March 2011) on specific products, together with their related Harmonized System code numbers and, in certain cases, the classification rationale. Advice Parties seeking to import or export merchandise covered by a decision are advised to verify the implementation of the decision by the importing or exporting country, as the case may be. HS codes Classification No Product description Classification considered rationale 1. Preparation, in the form of a powder, consisting of 92 % sugar, 6 % 2106.90 GRIs 1 and 6 black currant powder, anticaking agent, citric acid and black currant flavouring, put up for retail sale in 32-gram sachets, intended to be consumed as a beverage after mixing with hot water. 2. Vanutide cridificar (INN List 100). 3002.20 3. Certain INN products. Chapters 28, 29 (See “INN List 101” at the end of this publication.) and 30 4. Certain INN products. Chapters 13, 29 (See “INN List 102” at the end of this publication.) and 30 5. Certain INN products. Chapters 28, 29, (See “INN List 103” at the end of this publication.) 30, 35 and 39 6. Re-classification of INN products.
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  • PHARMACEUTICAL APPENDIX to the TARIFF SCHEDULE 2 Table 1
    Harmonized Tariff Schedule of the United States (2020) Revision 19 Annotated for Statistical Reporting Purposes PHARMACEUTICAL APPENDIX TO THE HARMONIZED TARIFF SCHEDULE Harmonized Tariff Schedule of the United States (2020) Revision 19 Annotated for Statistical Reporting Purposes PHARMACEUTICAL APPENDIX TO THE TARIFF SCHEDULE 2 Table 1. This table enumerates products described by International Non-proprietary Names INN which shall be entered free of duty under general note 13 to the tariff schedule. The Chemical Abstracts Service CAS registry numbers also set forth in this table are included to assist in the identification of the products concerned. For purposes of the tariff schedule, any references to a product enumerated in this table includes such product by whatever name known.
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  • (12) United States Patent (10) Patent No.: US 9,687,458 B2 Podolski Et Al
    US009687458B2 (12) United States Patent (10) Patent No.: US 9,687,458 B2 Podolski et al. (45) Date of Patent: Jun. 27, 2017 (54) TRANS-CLOMIPHENE FOR USE IN 6,143,353 A 1 1/2000 Oshlack CANCER THERAPY 6,190,591 B1 2/2001 Van Lengerich 6,221,399 B1 4/2001 Rolfes 6,248,363 B1 6, 2001 Patel (71) Applicant: REPROS THERAPEUTICS INC., 6,291,505 B1 9/2001 Huebner et al. The Woodlands, TX (US) 6,342,250 B1 1/2002 Masters 6,391920 B1 5, 2002 Fisch (72) Inventors: Joseph S. Podolski. The Woodlands, 6,511.986 B2 1/2003 Zhang et al. TX (US); Ronald D. Wiehle, Houston, 826 R $398 Ma'al TX (US); Kuang Hsu, The Woodlands, 6,638,528s- ww. B1 10/2003 KaniosaO ( a. TX (US); Greg Fontenot, The 6,645,974 B2 11/2003 Hutchinson et al. Woodlands, TX (US) 6,653,297 B1 11/2003 Hodgen 6,685,957 B1 2/2004 Bezemer et al. (73) Assignee: Repros Therapeutics Inc., The $33. R: 3. ErSC Woodlands, TX (US) 7,105,679 B2 9/2006 Kanojia et al. 7,354,581 B2 4/2008 Cedarb tal. (*) Notice: Subject to any disclaimer, the term of this 7,799,782 B2 9/2010 T al patent is extended or adjusted under 35 8,247456 B2 8/2012 Podolski U.S.C. 154(b) by 0 days. 8,377,991 B2 2/2013 Van AS 2002/O1200 12 A1 8, 2002 Fisch (21) Appl. No.: 14/440,007 (Continued) (22) PCT Filed: Oct.
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  • (12) United States Patent (10) Patent No.: US 6,264,917 B1 Klaveness Et Al
    USOO6264,917B1 (12) United States Patent (10) Patent No.: US 6,264,917 B1 Klaveness et al. (45) Date of Patent: Jul. 24, 2001 (54) TARGETED ULTRASOUND CONTRAST 5,733,572 3/1998 Unger et al.. AGENTS 5,780,010 7/1998 Lanza et al. 5,846,517 12/1998 Unger .................................. 424/9.52 (75) Inventors: Jo Klaveness; Pál Rongved; Dagfinn 5,849,727 12/1998 Porter et al. ......................... 514/156 Lovhaug, all of Oslo (NO) 5,910,300 6/1999 Tournier et al. .................... 424/9.34 FOREIGN PATENT DOCUMENTS (73) Assignee: Nycomed Imaging AS, Oslo (NO) 2 145 SOS 4/1994 (CA). (*) Notice: Subject to any disclaimer, the term of this 19 626 530 1/1998 (DE). patent is extended or adjusted under 35 O 727 225 8/1996 (EP). U.S.C. 154(b) by 0 days. WO91/15244 10/1991 (WO). WO 93/20802 10/1993 (WO). WO 94/07539 4/1994 (WO). (21) Appl. No.: 08/958,993 WO 94/28873 12/1994 (WO). WO 94/28874 12/1994 (WO). (22) Filed: Oct. 28, 1997 WO95/03356 2/1995 (WO). WO95/03357 2/1995 (WO). Related U.S. Application Data WO95/07072 3/1995 (WO). (60) Provisional application No. 60/049.264, filed on Jun. 7, WO95/15118 6/1995 (WO). 1997, provisional application No. 60/049,265, filed on Jun. WO 96/39149 12/1996 (WO). 7, 1997, and provisional application No. 60/049.268, filed WO 96/40277 12/1996 (WO). on Jun. 7, 1997. WO 96/40285 12/1996 (WO). (30) Foreign Application Priority Data WO 96/41647 12/1996 (WO).
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  • TE INI (19 ) United States (12 ) Patent Application Publication ( 10) Pub
    US 20200187851A1TE INI (19 ) United States (12 ) Patent Application Publication ( 10) Pub . No .: US 2020/0187851 A1 Offenbacher et al. (43 ) Pub . Date : Jun . 18 , 2020 ( 54 ) PERIODONTAL DISEASE STRATIFICATION (52 ) U.S. CI. AND USES THEREOF CPC A61B 5/4552 (2013.01 ) ; G16H 20/10 ( 71) Applicant: The University of North Carolina at ( 2018.01) ; A61B 5/7275 ( 2013.01) ; A61B Chapel Hill , Chapel Hill , NC (US ) 5/7264 ( 2013.01 ) ( 72 ) Inventors: Steven Offenbacher, Chapel Hill , NC (US ) ; Thiago Morelli , Durham , NC ( 57 ) ABSTRACT (US ) ; Kevin Lee Moss, Graham , NC ( US ) ; James Douglas Beck , Chapel Described herein are methods of classifying periodontal Hill , NC (US ) patients and individual teeth . For example , disclosed is a method of diagnosing periodontal disease and / or risk of ( 21) Appl. No .: 16 /713,874 tooth loss in a subject that involves classifying teeth into one of 7 classes of periodontal disease. The method can include ( 22 ) Filed : Dec. 13 , 2019 the step of performing a dental examination on a patient and Related U.S. Application Data determining a periodontal profile class ( PPC ) . The method can further include the step of determining for each tooth a ( 60 ) Provisional application No.62 / 780,675 , filed on Dec. Tooth Profile Class ( TPC ) . The PPC and TPC can be used 17 , 2018 together to generate a composite risk score for an individual, which is referred to herein as the Index of Periodontal Risk Publication Classification ( IPR ) . In some embodiments , each stage of the disclosed (51 ) Int. Cl. PPC system is characterized by unique single nucleotide A61B 5/00 ( 2006.01 ) polymorphisms (SNPs ) associated with unique pathways , G16H 20/10 ( 2006.01 ) identifying unique druggable targets for each stage .
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  • Cytoplasmic Localization of RXR Determines Outcome in Breast
    cancers Article Cytoplasmic Localization of RXRα Determines Outcome in Breast Cancer Alaleh Zati zehni 1,†, Falk Batz 1,†, Vincent Cavaillès 2 , Sophie Sixou 3,4, Till Kaltofen 1 , Simon Keckstein 1, Helene Hildegard Heidegger 1, Nina Ditsch 5, Sven Mahner 1, Udo Jeschke 1,5,* and Theresa Vilsmaier 1 1 Department of Obstetrics and Gynecology, University Hospital Munich LMU, 81377 Munich, Germany; [email protected] (A.Z.z.); [email protected] (F.B.); [email protected] (T.K.); [email protected] (S.K.); [email protected] (H.H.H.); [email protected] (S.M.); [email protected] (T.V.) 2 IRCM—Institut de Recherche en Cancérologie de Montpellier, INSERM U1194, Université Montpellier, Parc Euromédecine, 208 rue des Apothicaires, CEDEX 5, F-34298 Montpellier, France; [email protected] 3 Faculté des Sciences Pharmaceutiques, Université Paul Sabatier Toulouse III, CEDEX 09, 31062 Toulouse, France; [email protected] 4 Cholesterol Metabolism and Therapeutic Innovations, Cancer Research Center of Toulouse (CRCT), UMR 1037, Université de Toulouse, CNRS, Inserm, UPS, 31037 Toulouse, France 5 Department of Obstetrics and Gynecology, University Hospital, 86156 Augsburg, Germany; [email protected] * Correspondence: [email protected]; Tel.: +49-8214-0016-5505 † These authors equally contributed to this work. Citation: Zati zehni, A.; Batz, F.; Cavaillès, V.; Sixou, S.; Kaltofen, T.; Simple Summary: Considering the immense development of today’s therapeutic approaches in on- Keckstein, S.; Heidegger, H.H.; Ditsch, cology towards customized therapy, this study aimed to assess the prognostic value of nuclear versus N.; Mahner, S.; Jeschke, U.; et al.
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