DOCSLIB.ORG

Administration of Intravenous Fentanyl During Labour POLICY

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Administration of Intravenous Fentanyl During Labour POLICY Labour and Delivery Administration of Intravenous Manual FentaNYL During Labour Original Date April 2013 Misericordia Revised Date Community Hospital POLICY and PROCEDURE Approved by: Next Review: April 2015 Page 1 of 5 Director, Women’s Health, Covenant Health, GNH/MCH Facility Site Lead, Women’s Health, MCH Purpose: The purpose of this protocol is to ensure the safe administration of Intravenous FentaNYL during labour. Indications: FentaNYL is a potent short acting opioid that is an effective intravenous analgesic when used in active labour. The MOREOB program (2012) recommends the use of narcotics during labour that have a shorter half-life e.g. morphine or fentaNYL and discourages the use of Meperidine because of the increased risk of negative neonatal effects related to its longer half-life. These include respiratory depression, lack of responsiveness and impaired sucking reflex. Choices of Opioid in Labour Stage of Labour Nulliparous Multiparous Latent Stage IM Morphine IM Morphine Early Active Stage IM or IV Morphine IV FentaNYL Late Active Stage IV Morphine or FentaNYL IV FentaNYL Second Stage IV FentaNYL IV FentaNYL Source: MOREOB (2012). Management of Labour Methods of Action of Intravenous FentaNYL Has a rapid onset of action occurring 3-5 minutes after administration with a peak action between 5 and 15 minutes. Has a short duration of action (30-60 minutes after a single IV dose of up to 100 micrograms) probably due to its rapid distribution from plasma into the tissues rather than metabolism and excretion. Has a maternal half-life of less than one hour. May be used within an hour of birth. Is metabolized by the liver. Is excreted mainly in the urine (metabolites and unchanged drug). Results in less maternal sedation, nausea & vomiting than morphine. Crosses the placenta in small amounts as is highly bound to protein. Has a neonatal half-life of 1-6 hours. Has not been associated with neonatal neurobehavioural depression. Has been detected in breast milk but is considered compatible with breastfeeding. Date Approved Page Administration of Intravenous FentaNYL During Labour April 2013 2 of 5 Use with Caution Patients at high risk for emergent cesarean section (evidence of fetal compromise). Preterm labour (higher risk of respiratory depression in the neonate. Obesity (fentaNYL is very lipid soluble). Patients who have received more than one dose of a longer acting narcotic. Lower FentaNYL doses may be required. Women with a history of difficult intubation. Hypertensive disorders of pregnancy (increases sensitivity to hemodynamic effects of fentaNYL. Delivery anticipated within 30 minutes. Renal impairment or hepatic disease (lower dosage may be required as fentaNYL clearance may be reduced). Pulmonary disease or myasthenia gravis. Uncorrected hypotension or hypovolemia. Contraindications Hypersensitivity to fentaNYL, and possible cross sensitivity to alfentanil, anileridine, diphenoxylate, meperidine, remifentanil, and sufentanil. Use of MAO inhibitors within 14 days. Fetal acidosis/abnormal fetal heart tracing. Maternal respiratory rate of less than 8 breaths per minute or with an oxygen saturation of less than 94%. Special Training and Equipment Special Training as per Edmonton Zone on line parenteral monograph for fentaNYL. Ensure oxygen, Naloxone & Resuscitation equipment are readily available for the mother and the neonate. RN must have specialized clinical competency in direct IV medication administration. Guidelines for Use Assessment Prior to Administration Assess labour progress within 30 minutes prior to fentaNYL administration. Assess baseline maternal vital signs and pain score. Ensure fetal heart rate is normal as per SOGC (2007) and Edmonton Zone Women’s Health Program (2011) Fetal Health Surveillance Guideline. Education to Patient Education to patient should cover potential maternal and neonatal side effects of the IV FentaNYL, its onset and peak times, effect on labour progress and potential effect on breast feeding initiation. Document this education, patient verbal consent in chart. Date Approved Page Administration of Intravenous FentaNYL During Labour April 2013 3 of 5 Dilution Instructions Dilute 100 microgram (2mL of 50 micrograms/mL) of fentaNYL with 8 mL or normal saline to obtain 10 mLs of solution with a concentration of 10 micrograms / mL. Label syringe with patient name, medication, concentration, date, time & RN signature. Administration Ensure an IV has been established and is infusing. Initial Dose as ordered by the Physician. - 50 – 100 mcg IV push over 1-2 minutes. Wait 5-10 minutes for effect. - Repeat: 50 mcg IV Q 3-5 minutes until analgesia is effective to a maximum dose of 300 mcq given in ½ hour. - Notify physician when maximum dose is reached if patient remains in pain. Monitoring Respiratory rate should be monitored prior to and 5 minutes following every dose. Continuous O2 saturation monitoring is required. Assess sedation scale and pain score 5 minutes after each dose is administered and then Q30 minutes. Subsequent doses should only be given if analgesia is inadequate. Onset of action for IV fentaNYL is 3-5 minutes; duration of action is 30-60 minutes. Patients should be closely monitored for signs of adverse reactions and possible respiratory difficulty. Naloxone should be readily available for Emergency administration. Oxygen saturation and respiratory rate should be monitored for 30-45 minutes after the last dose of fentaNYL. Respiratory depressant effect lasts longer than the analgesic effect. Maternal Potential Adverse Effects Major Respiratory depression, respiratory arrest, asystole, arrythmias, and hypotension have recurred after the initial recovery following high or multiple doses of fentaNYL. Frequent Respiratory depression (can occur 6-8 hours after administration). Bradycardia, orthostatic hypotension, sedation, nausea & vomiting. Less Frequent Rigidity in respiration muscles in the chest and pharynx following rapid IV administration. Rare Dizziness, euphoria, laryngospasm, allergic bronchospasm, and seizures. Date Approved Page Administration of Intravenous FentaNYL During Labour April 2013 4 of 5 Neonatal Potential Adverse Effects Respiratory depression. Management of Adverse Reactions In the event of an adverse reaction, the nurse should: Immediately stop the injection. Administer oxygen; assess oxygen saturation, initiate CPR and call a Code Blue if required. Call for help immediately if the respiratory rate of less than 10 per minute or oxygen saturation less than 92%. Charge Nurse to notify Anaesthetist/Physician stat. Prepare to administer Naloxone as ordered in the event of respiratory depression. Document the adverse reaction and steps take to reverse it. Naloxone: As per on line drug monograph IV Naloxone is an opiate antagonist used to reverse opiate-induced respiratory depression and overdose. The dosage for opiate-induced respiratory depression is 0.4 to 2 mg IV initially; repeat at 2 to 3 minute intervals PRN. Maximum total dose of 10 mg. The dose must be titrated to avoid interference with pain control. If patient does not respond at this dose, the diagnosis of narcotic-induced or partial narcotic-induced toxicity is questionable. Monitor patients closely to detect re-emergence of opiate effects/toxicity. Administer repeat doses of Naloxone as necessary for adequate reversal. Neonatal Respiratory Depression: Call the Resuscitation Team stat. Provide neonatal resuscitation as per the 2011 Neonatal Resuscitation Guidelines. Assist the RST in administering Naloxone if required. Ongoing Maternal / Fetal Assessment: Further maternal monitoring may be required depending on patient response, fentaNYL dosage and need for repeated dose(s). Assess other maternal vital signs as required or ordered. Continue fetal health surveillance until patient is delivered. Date Approved Page Administration of Intravenous FentaNYL During Labour April 2013 5 of 5 References: 1. Alberta Health Services. Parenteral Manual Edmonton Zone. FentaNYL Monograph, November 10, 2011; version 6. 2. Alberta Health Services. Parenteral Manual Edmonton Zone. Naloxone Monograph, December 8, 2011; version 5. 3. Alberta Perinatal Health Program. Module 06. Pain management in labour. Retrieved August 23 from http://aphp.dapasoft.com 4. British Columbia Perinatal Health Program. (2007). Obstetric Guideline 4. Pain Management Options during Labour. Retrieved July 23, 2009 from http://www.bcphp.ca//sites/bcrcp/files/Guidelines/Obstetrics/OB4PainManagement.pdf 5. Canadian Pharmacists Association. (2012). Opioid monograph (2012). Retrieved 23 August 2012 from http://www.e-therapeutics.ca 6. Edmonton Zone Women’s Health Zone Clinical Department Executive Committee. (2011) Clinical Practice Guideline. Fetal Health Surveillance. 7. Evans, R.J., Evans, M.K., Brown, Y.M.R., and Orschan, S.A., (2010). Canadian Maternity, Newborn & Women’s Health Nursing. Philadelphia: Lippincott, Williams and Wilkins. 8. Martindale: (The Complete Drug Reference). FentaNYL Citrate. Retrieved 23 August 2012 from Lexicomp online at: online.lexi.com/lco/action/doc/retrieve/docid/429/1251005 9. MOREOB Program. (2012). Management of Labour. Retrieved 20 August 2012 from http://www.moreob.ca 10. Northern Alberta Neonatal Intensive Care Program. (2012, July). Delivery Resuscitation Policy.p3. 11. Reproductive Care Program of Nova Scotia. (2006). Guideline for the Administration of FentaNYL for Pain Relief in Labour. 12. Society of Obstetricians and Gynaecologists of Canada. (2007). Fetal Health Surveillance: Antepartum and Intrapartum Consensus Guideline. 13. Sturgeon Community Hospital (2010). Obstetrical Guideline: Intravenous Use of FentaNYL in Labour. Number 3.3.13. .
Load more

Recommended publications
  • Perioperative Opioid-Sparing Analgesia Strategies for Enhanced Recovery After Surgery
    Perioperative Opioid-Sparing Analgesia Strategies for Enhanced Recovery After Surgery T. Anthony Anderson, MD PhD Associate Professor Department of Anesthesiology, Perioperative and Pain Medicine Lucile Packard Children's Hospital Stanford Stanford University School of Medicine International Society for Anaesthetic Pharmacology 2018 Annual Meeting Disclosures • I have no relevant relationships to disclose Learning Objectives After this lecture, the listener should be able to: • Identify risks associated with the perioperative use of opioids • Determine opioid-sparing systemic pharmacologic analgesics options • Organize a perioperative analgesic plan to decrease postoperative pain, reduce opioid use, hasten recovery, and improve patient safety Paradigm Shift Surgical Considerations Optimize Co-Morbidities Baseline Pain & Opioid Use Regional techniques Non-pharmacologic Non-opioid Opioids Reasons to Reduce Peri-operative Opioid Use • Relapse risk in patients with a history of opioid use disorder • Improved post-operative recovery • Acute risks • Chronic risks Opioid Use Disorder Relapse • In 2016, 1.8 million people had prescription pain medication use disorder, 5.5% of population • High risk group • Poor evidence for pain management options • Perioperative exposure to relapse triggers: – Stress – Agent of abuse Ward EN, Quaye AN, Wilens TE. Opioid Use Disorders: Perioperative Management of a Special Population. Anesth Analg. 2018 Aug;127(2):539-547. Briand LA, Blendy JA. Molecular and genetic substrates linking stress and addiction. Brain Res. 2010 Feb 16;1314:219-34. ERAS Colorectal Surgery • 13 major perioperative categories • 3 rely heavily on opioid reduction – Multimodal, opioid-sparing pain management – PONV prevention – Ileus reduction • ERAS protocols reduce – Length of hospital stay – Costs – Minor complications Carmichael JC, Keller DS, Baldini G, Bordeianou L, Weiss E, Lee L, Boutros M, McClane J, Feldman LS, Steele SR.
    [Show full text]
  • The National Drugs List
    ^ ^ ^ ^ ^[ ^ The National Drugs List Of Syrian Arab Republic Sexth Edition 2006 ! " # "$ % &'() " # * +$, -. / & 0 /+12 3 4" 5 "$ . "$ 67"5,) 0 " /! !2 4? @ % 88 9 3: " # "$ ;+<=2 – G# H H2 I) – 6( – 65 : A B C "5 : , D )* . J!* HK"3 H"$ T ) 4 B K<) +$ LMA N O 3 4P<B &Q / RS ) H< C4VH /430 / 1988 V W* < C A GQ ") 4V / 1000 / C4VH /820 / 2001 V XX K<# C ,V /500 / 1992 V "!X V /946 / 2004 V Z < C V /914 / 2003 V ) < ] +$, [2 / ,) @# @ S%Q2 J"= [ &<\ @ +$ LMA 1 O \ . S X '( ^ & M_ `AB @ &' 3 4" + @ V= 4 )\ " : N " # "$ 6 ) G" 3Q + a C G /<"B d3: C K7 e , fM 4 Q b"$ " < $\ c"7: 5) G . HHH3Q J # Hg ' V"h 6< G* H5 !" # $%" & $' ,* ( )* + 2 ا اوا ادو +% 5 j 2 i1 6 B J' 6<X " 6"[ i2 "$ "< * i3 10 6 i4 11 6! ^ i5 13 6<X "!# * i6 15 7 G!, 6 - k 24"$d dl ?K V *4V h 63[46 ' i8 19 Adl 20 "( 2 i9 20 G Q) 6 i10 20 a 6 m[, 6 i11 21 ?K V $n i12 21 "% * i13 23 b+ 6 i14 23 oe C * i15 24 !, 2 6\ i16 25 C V pq * i17 26 ( S 6) 1, ++ &"r i19 3 +% 27 G 6 ""% i19 28 ^ Ks 2 i20 31 % Ks 2 i21 32 s * i22 35 " " * i23 37 "$ * i24 38 6" i25 39 V t h Gu* v!* 2 i26 39 ( 2 i27 40 B w< Ks 2 i28 40 d C &"r i29 42 "' 6 i30 42 " * i31 42 ":< * i32 5 ./ 0" -33 4 : ANAESTHETICS $ 1 2 -1 :GENERAL ANAESTHETICS AND OXYGEN 4 $1 2 2- ATRACURIUM BESYLATE DROPERIDOL ETHER FENTANYL HALOTHANE ISOFLURANE KETAMINE HCL NITROUS OXIDE OXYGEN PROPOFOL REMIFENTANIL SEVOFLURANE SUFENTANIL THIOPENTAL :LOCAL ANAESTHETICS !67$1 2 -5 AMYLEINE HCL=AMYLOCAINE ARTICAINE BENZOCAINE BUPIVACAINE CINCHOCAINE LIDOCAINE MEPIVACAINE OXETHAZAINE PRAMOXINE PRILOCAINE PREOPERATIVE MEDICATION & SEDATION FOR 9*: ;< " 2 -8 : : SHORT -TERM PROCEDURES ATROPINE DIAZEPAM INJ.
    [Show full text]
  • Original Article Anesthetic Effect of Propofol Combined with Remifentanil and Propofol Combined with Ketamine in Ophthalmic Surgery
    Int J Clin Exp Med 2019;12(7):9387-9392 www.ijcem.com /ISSN:1940-5901/IJCEM0079428 Original Article Anesthetic effect of propofol combined with remifentanil and propofol combined with ketamine in ophthalmic surgery Xiaofeng Yi1*, Yanbing Zhang1*, Limin Jin1, Xinjing Yang2 Departments of 1Anesthesia Surgery, 2Emergency ICU, First Affiliated Hospital of Soochow University, Suzhou 215000, Jiangsu, China. *Equal contributors. Received May 10, 2018; Accepted December 7, 2018; Epub July 15, 2019; Published July 30, 2019 Abstract: Propofol combined with ketamine has been used for anesthesia in the past. Remifentanil presented a good analgesic effect, rapid onset, short half-life, and a high clearance rate. Propofol combined with remifentanil also shows good effects in the clinic. This study compared the effect and safety of propofol combined remifentanil and propofol combined ketamine in pediatric eye surgery. Pediatric patients that received eye surgery in our hospital were selected and randomly divided into two groups, the experimental group (n=30), in which patients received pro- pofol combined with remifentanil anesthesia and control group (n=30), and the group receiving propofol combined with ketamine anesthesia. The curative effect, FCO2, SPO2, MAP, HR, anesthesia complications, operation time, recovery time, and leaving PACU time were compared. The rate of good anesthesia was 93.33% in the experimental group, which was significantly higher than control (P < 0.05). FCO2 at 2 and 5 minutes after anesthesia, preopera- tive, intraoperative, and postoperative elevated, while SPO2, MAP, and HR decreased (P < 0.05). The experimen- tal group showed smaller fluctuation range than the control. The rate of Nausea (6.67%), vomiting (3.33%), and somnolence (10%) in the experimental group was significantly lower than control (P < 0.05).
    [Show full text]
  • Federal Register/Vol. 85, No. 36/Monday, February 24, 2020
    10466 Federal Register / Vol. 85, No. 36 / Monday, February 24, 2020 / Notices Controlled substance Drug code Schedule Alphamethadol ................................................................................................................................................................. 9605 I Benzethidine .................................................................................................................................................................... 9606 I Betacetylmethadol ........................................................................................................................................................... 9607 I Clonitazene ...................................................................................................................................................................... 9612 I Diampromide ................................................................................................................................................................... 9615 I Diethylthiambutene .......................................................................................................................................................... 9616 I Dimethylthiambutene ....................................................................................................................................................... 9619 I Ketobemidone .................................................................................................................................................................
    [Show full text]
  • ESTIMATED WORLD REQUIREMENTS of NARCOTIC DRUGS in GRAMS for 2019 (As of 10 January 2019 )
    ESTIMATED WORLD REQUIREMENTS OF NARCOTIC DRUGS IN GRAMS FOR 2019 (as of 10 January 2019 ) Afghanistan Cannabis 50 Codeine 50 000 Cannabis resin 1 Dextropropoxyphene 10 000 Coca leaf 1 Diphenoxylate 5 000 Cocaine 15 Fentanyl 1 Codeine 650 000 Methadone 20 000 Codeine -N-oxide 1 Morphine 8 000 Dextromoramide 1 Pethidine 90 000 Dextropropoxyphene 200 000 Pholcodine 40 000 Difenoxin 1 Albania Dihydrocodeine 1 Cocaine 1 Diphenoxylate 1 Codeine 1 189 000 Dipipanone 1 Fentanyl 300 Ecgonine 2 Heroin 1 Ethylmorphine 1 Methadone 7 000 Etorphine 1 Morphine 7 800 Fentanyl 17 000 Oxycodone 2 000 Heroin 1 Pethidine 2 700 Hydrocodone 10 000 Pholcodine 1 500 Hydromorphone 4 000 Remifentanil 9 Ketobemidone 1 Sufentanil 2 Levorphanol 1 Algeria Methadone 100 000 Alfentanil 350 Morphine 1 550 000 Codeine 2 500 000 Morphine -N-oxide 1 Etorphine 1 Nicomorphine 1 Fentanyl 500 Norcodeine 1 Methadone 4 000 Normethadone 1 Morphine 9 000 Normorphine 1 Oxycodone 4 000 Opium 10 Pethidine 3 000 Oripavine 1 Pholcodine 1 500 000 Oxycodone 60 000 Remifentanil 1 Oxymorphone 1 Sufentanil 30 Pethidine 50 000 Andorra Phenoperidine 1 Cannabis 2 000 Pholcodine 1 Fentanyl 100 Piritramide 1 Methadone 1 000 Remifentanil 20 000 Morphine 500 Sufentanil 10 Oxycodone 2 000 Thebacon 1 Pethidine 500 Thebaine 70 000 Remifentanil 4 Tilidine 1 Angola Armenia Alfentanil 20 Codeine 3 000 Codeine 21 600 Fentanyl 40 Dextromoramide 188 Methadone 13 500 Dextropropoxyphene 200 Morphine 7 500 Dihydrocodeine 500 Thebaine 15 Diphenoxylate 300 Trimeperidine 1 500 Fentanyl 63 Aruba* Methadone 2 000
    [Show full text]
  • A Review of Unique Opioids and Their Conversions
    A Review of Unique Opioids and Their Conversions Jacqueline Cleary, PharmD, BCACP Assistant Professor Albany College of Pharmacy and Health Sciences Adjunct Professor SAGE College of Nursing DISCLOSURES • Kaleo • Remitigate, LLC OBJECTIVES • Compare and contrast unique pharmacotherapy options for the treatment of chronic pain including: methadone, buprenoprhine, tapentadol, and tramadol • Select methadone, buprenorphine, tapentadol, or tramadol based on patient specific factors • Apply appropriate opioid conversion strategies to unique opioids • Understand opioid overdose risk surrounding opioid conversions and the use of unique opioids UNIQUE OPIOIDS METHADONE, BUPRENORPHINE, TRAMADOL, TAPENTADOL METHADONE My favorite drug because….? METHADONE- INDICATIONS • FDA labeled indications – (1) chronic pain (2) detoxification Oral soluble tablets for suspension NOT indicated for chronic pain treatment • Initial inpatient detoxification of opioids by a licensed trained provider with methadone and supportive care is appropriate • Methadone maintenance provider must have special credentialing and training as required by state Outpatient prescription must be for pain ONLY and say “for pain” on RX • Continuation of methadone maintenance from outside provider while patient is inpatient for another condition is appropriate http://cdn.atforum.com/wp-content/uploads/SAMHSA-2015-Guidelines-for-OTPs.pdf MECHANISM OF ACTION • Potent µ-opioid agonist • NMDA receptor antagonist • Norepinephrine reuptake inhibitor • Serotonin reuptake inhibitor ADVERSE EVENTS
    [Show full text]
  • Recommended Methods for the Identification and Analysis of Fentanyl and Its Analogues in Biological Specimens
    Recommended methods for the Identification and Analysis of Fentanyl and its Analogues in Biological Specimens MANUAL FOR USE BY NATIONAL DRUG ANALYSIS LABORATORIES Laboratory and Scientific Section UNITED NATIONS OFFICE ON DRUGS AND CRIME Vienna Recommended Methods for the Identification and Analysis of Fentanyl and its Analogues in Biological Specimens MANUAL FOR USE BY NATIONAL DRUG ANALYSIS LABORATORIES UNITED NATIONS Vienna, 2017 Note Operating and experimental conditions are reproduced from the original reference materials, including unpublished methods, validated and used in selected national laboratories as per the list of references. A number of alternative conditions and substitution of named commercial products may provide comparable results in many cases. However, any modification has to be validated before it is integrated into laboratory routines. ST/NAR/53 Original language: English © United Nations, November 2017. All rights reserved. The designations employed and the presentation of material in this publication do not imply the expression of any opinion whatsoever on the part of the Secretariat of the United Nations concerning the legal status of any country, territory, city or area, or of its authorities, or concerning the delimitation of its frontiers or boundaries. Mention of names of firms and commercial products does not imply the endorse- ment of the United Nations. This publication has not been formally edited. Publishing production: English, Publishing and Library Section, United Nations Office at Vienna. Acknowledgements The Laboratory and Scientific Section of the UNODC (LSS, headed by Dr. Justice Tettey) wishes to express its appreciation and thanks to Dr. Barry Logan, Center for Forensic Science Research and Education, at the Fredric Rieders Family Founda- tion and NMS Labs, United States; Amanda L.A.
    [Show full text]
  • Comparison of Three Intraoperative Analgesic Strategies in Laparoscopic Bariatric Surgery – a Retrospective Study of Immediate Postoperative Outcomes
    Journal Pre-proof Comparison of three intraoperative analgesic strategies in laparoscopic bariatric surgery – a retrospective study of immediate postoperative outcomes Leopoldo Muniz da Silva, Anthony M.H. Ho, Daniel Rodrigues de Oliveira, Arthur de Campos Vieira Abib, Saullo Queiroz Silveira, Anna Beatriz Aranha, Vitor Oliveira Andre,´ Patr´ıcia Renno´ Pinto, Rafael Souza Fava Nersessian, Glenio B. Mizubuti PII: S0104-0014(21)00254-2 DOI: https://doi.org/10.1016/j.bjane.2021.06.006 Reference: BJANE 744200 To appear in: Brazilian Journal of Anesthesiology (English edition) Received Date: 7 October 2020 Accepted Date: 12 June 2021 Please cite this article as: { doi: https://doi.org/ This is a PDF file of an article that has undergone enhancements after acceptance, such as the addition of a cover page and metadata, and formatting for readability, but it is not yet the definitive version of record. This version will undergo additional copyediting, typesetting and review before it is published in its final form, but we are providing this version to give early visibility of the article. Please note that, during the production process, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. © 2020 Published by Elsevier. BJAN-D-20-00282_Clinical Research Comparison of three intraoperative analgesic strategies in laparoscopic bariatric surgery – a retrospective study of immediate postoperative outcomes Leopoldo Muniz da Silvaa,*, Anthony M.H. Hob, Daniel Rodrigues de Oliveiraa, Arthur de Campos Vieira Abiba, Saullo Queiroz Silveiraa, Anna Beatriz Aranhaa, Vitor Oliveira Andréa, Patrícia Rennó Pintoa, Rafael Souza Fava Nersessiana, Glenio B.
    [Show full text]
  • ESTIMATED WORLD REQUIREMENTS of NARCOTIC DRUGS in GRAMS for 2021 (July Update)
    ESTIMATED WORLD REQUIREMENTS OF NARCOTIC DRUGS IN GRAMS FOR 2021 (July update) Afghanistan Bezitramide 1 Codeine 20 000 Cannabis 7 050 Dextropropoxyphene 20 000 Cannabis resin 1 Diphenoxylate 800 Coca leaf 1 Fentanyl 6 Cocaine 15 Methadone 120 000 Codeine 700 000 Morphine 10 000 Codeine-N-oxide 1 Pethidine 2 000 Dextromoramide 1 Pholcodine 5 000 Dextropropoxyphene 170 000 Albania Difenoxin 1 Cocaine 1 Dihydrocodeine 1 Codeine 1 190 000 Diphenoxylate 1 Fentanyl 300 Dipipanone 1 Heroin 1 Ecgonine 2 Methadone 16 500 Ethylmorphine 1 Morphine 7 500 Etorphine 1 Oxycodone 1 500 Fentanyl 17 200 Pethidine 2 500 Heroin 1 Pholcodine 1 600 Hydrocodone 11 000 Remifentanil 10 Hydromorphone 4 000 Sufentanil 2 Ketobemidone 1 Algeria Levorphanol 1 Alfentanil 400 Methadone 110 000 Cannabis 3 Morphine 1 590 000 Cocaine 5 Morphine-N-oxide 1 Codeine 2 500 000 Nicomorphine 1 Etorphine 1 Norcodeine 1 Fentanyl 900 Normethadone 1 Heroin 2 Normorphine 1 Methadone 4 000 Opium 10 Morphine 15 000 Oripavine 1 Oxycodone 4 000 Oxycodone 60 000 Pethidine 3 000 Oxymorphone 1 Pholcodine 1 500 000 Pethidine 50 000 Remifentanil 1 Phenoperidine 1 Sufentanil 50 Pholcodine 1 Andorra Piritramide 1 Cannabis 2 000 Remifentanil 17 000 Fentanyl 100 Sufentanil 10 Methadone 1 000 Thebacon 1 Morphine 500 Thebaine 77 000 Oxycodone 2 000 Tilidine 1 Pethidine 500 Armenia Remifentanil 4 Codeine 3 000 Angola Fentanyl 50 Alfentanil 24 Methadone 22 000 Codeine 21 600 Morphine 8 000 Dextromoramide 188 Thebaine 4 100 Dextropropoxyphene 200 Trimeperidine 1 500 Dihydrocodeine 500 Aruba* Diphenoxylate
    [Show full text]
  • Comprehensive Multi-Analytical Screening Of
    COMPREHENSIVE MULTI-ANALYTICAL SCREENING OF DRUGS OF ABUSE, INCLUDING NEW PSYCHOACTIVE SUBSTANCES, IN URINE WITH BIOCHIP ARRAYS APPLIED TO THE EVIDENCE ANALYSER Darragh J., Keery L., Keenan R., Stevenson C., Norney G., Benchikh M.E., Rodríguez M.L., McConnell R. I., FitzGerald S.P. Randox Toxicology Ltd., Crumlin, United Kingdom e-mail: [email protected] Introduction Biochip array technology allows the simultaneous detection of multiple drugs from a single undivided sample, which This study summarises the analytical performance of three different biochip arrays applied to the screening of increases the screening capacity and the result output per sample. Polydrug consumption can be detected and by acetylfentanyl, AH-7921, amphetamine, barbiturates, benzodiazepines (including etizolam and clonazepam), incorporating new immunoassays on the biochip surface, this technology has the capacity to adapt to the new trends benzoylecgonine/cocaine, benzylpiperazines, buprenorphine, cannabinoids, carfentanil, dextromethorphan, fentanyl, in the drug market. furanylfentanyl, meprobamate, mescaline, methamphetamine, methadone, mitragynine, MT-45, naloxone, ocfentanyl, opioids, opiates, oxycodone, phencyclidine, phenylpiperazines, salvinorin, sufentanil, synthetic cannabinoids (JWH-018, UR-144, AB-PINACA, AB-CHMINACA), synthetic cathinones [mephedrone, methcathinone, alpha- pyrrolidinopentiophenone (alpha-PVP)], tramadol, tricyclic antidepressants, U-47700, W-19, zolpidem. Methodology Three different biochip arrays were used (DOA ULTRA,
    [Show full text]
  • The International Drug Control Conventions
    ST/CND/1/Add.1/Rev.3 The International Drug Control Conventions Schedules of the Single Convention on Narcotic Drugs of 1961 as amended by the 1972 Protocol, as at 22 April 2017 UNITED NATIONS New York, 2017 ST/CND/1/Add.1/Rev.3 © United Nations, 2017. All rights reserved, worldwide. Schedules of the Single Convention on Narcotic Drugs of 1961 as amended by the 1972 Protocol, as at 22 April 2017 List of drugs included in Schedule I Acetorphine 3-O-Acetyltetrahydro-7α-(1-hydroxy-1-methylbutyl)- 6,14-endo-ethenooripavine Acetyl-alpha-methylfentanyl N-[1-(α-Methylphenethyl)-4-piperidyl]acetanilide Acetylfentanyl N-phenyl-N-[1-(2-phenylethyl)-4-piperidinyl]acetamide Acetylmethadol 3-Acetoxy-6-dimethylamino-4,4-diphenylheptane AH-7921 3,4-dichloro-N-{[1- (dimethylamino)cyclohexyl]methyl}benzamide Alfentanil N-[1-[2-(4-Ethyl-4,5-dihydro-5-oxo-1H-tetrazol-1-yl) ethyl]-4-(methoxymethyl)-4-piperidinyl]-N- phenylpropanamide Allylprodine 3-Allyl-1-methyl-4-phenyl-4-propionoxypiperidine Alphacetylmethadol α-3-Acetoxy-6-dimethylamino-4,4-diphenylheptane Alphameprodine α-3-Ethyl-1-methyl-4-phenyl-4-propionoxypiperidine Alphamethadol α-6-Dimethylamino-4,4-diphenyl-3-heptanol alpha-Methylfentanyl N-[1-(α-Methylphenethyl)-4-piperidyl]propionanilide alpha-Methylthiofentanyl N-[1-[1-Methyl-2-(2-thienyl)ethyl]-4-piperidyl] propionanilide Alphaprodine α-l,3-Dimethyl-4-phenyl-4-propionoxypiperidine Anileridine 1-p-Aminophenethyl-4-phenylpiperidine-4-carboxylic acid ethyl ester Benzethidine 1-(2-Benzyloxyethyl)-4-phenylpiperidine-4-carboxylic acid ethyl ester
    [Show full text]
  • Outline for Controlled Substances Program
    Environmental Health and Safety Controlled Substances Program Date of Issuance: Review Date: 10/1/2019 (no changes) 10/01/2018 Revision Number: Initial Prepared by: EH&S Table of Contents HEADINGS Introduction Applicability Responsibilities Registration Requirements Authorized Use Ordering/Purchasing Administering and Dispensing Inventory Procedures (Continuing Records) Security Disposal FORMS: Registering or renewing a DEA or state license (CMU) Controlled Substances Authorized users list (CMU) Employee questionnaire for those with access to controlled substances (CMU) Record of Form 222 use (Order form) (CMU) Records of Controlled Substance Purchases (CMU) Record of Controlled Substance Administering and dispensing (CMU) Controlled Substance Physical Inventory (CMU) DEA Registration of Persons doing research or analysis (Form 225) DEA Registration of Dispensers (Form 224) DEA Registration Instructional (Form 224 and 226 to renew) DEA Report of loss or theft (Form 106) DEA Report of drugs surrendered (From 41) DEA SCHEDULES: Schedule I Schedule II Schedule III Schedule IV Schedule V INTRODUCTION State and Federal regulations have been promulgated concerning the use and handling of US Department of Justice Drug Enforcement Administration (DEA) controlled substances. These regulations are in place to address materials which are or have the potential to be addictive or habit forming. These substances have been categorized into “schedules” that have been created by the DEA to reflect their level of concern. The “Carnegie Mellon University DEA Controlled Substances Program” is intended to ensure that Carnegie Mellon University is in compliance with our regulatory requirements. Required activities under the DEA include: 1. Registration of your work with the DEA and with Carnegie Mellon’s Department of Environmental Health and Safety (EH&S).
    [Show full text]