RESUMEN
Context: Treatment options for central precocious puberty (CPP) are important for individualization of therapy. Objective: We evaluated the efficacy and safety of 6-month 45-mg leuprolide acetate (LA) depot with intramuscular administration. Methods: LA depot was administered at weeks 0 and 24 to treatment-naïve (n = 27) or previously treated (n = 18) children with CPP in a phase 3, multicenter, single-arm, open-label study (NCT03695237). Week 24 peak-stimulated luteinizing hormone (LH) suppression (<4â mIU/mL) was the primary outcome. Secondary/other outcomes included basal sex hormone suppression (girls, estradiol <20â pg/mL; boys, testosterone <30â ng/dL), suppression of physical signs, height velocity, bone age, patient/parent-reported outcomes, and adverse events. Results: All patients (age, 7.8 ± 1.27 years) received both scheduled study doses. At 24 weeks, 39/45 patients (86.7%) had LH suppressed. Six were counted as unsuppressed; 2 because of missing data, 3 with LH of 4.35-5.30â mIU/mL and 1 with LH of 21.07â mIU/mL. Through 48 weeks, LH, estradiol, and testosterone suppression was achieved in ≥86.7%, ≥97.4%, and 100%, respectively (as early as week 4 for LH and estradiol and week 12 for testosterone). Physical signs were suppressed at week 48 (girls, 90.2%; boys, 75.0%). Mean height velocity ranged 5.0 to 5.3â cm/year post-baseline in previously treated patients and declined from 10.1 to 6.5â cm/year at week 20 in treatment-naïve patients. Mean bone age advanced slower than chronological age. Patient/parent-reported outcomes remained stable. No new safety signals were identified. No adverse event led to treatment discontinuation. Conclusion: Six-month intramuscular LA depot demonstrated 48-week efficacy with a safety profile consistent with other GnRH agonist formulations.
RESUMEN
BACKGROUND: Levodopa-carbidopa intestinal gel (LCIG) improves motor and non-motor symptoms in patients with advanced Parkinson's disease (aPD). OBJECTIVE: To present the final 36-month efficacy and safety results from DUOGLOBE (DUOdopa/Duopa in Patients with Advanced Parkinson's Disease - a GLobal OBservational Study Evaluating Long-Term Effectiveness; NCT02611713). METHODS: DUOGLOBE was an international, prospective, long-term, real-world, observational study of patients with aPD initiating LCIG in routine clinical care. The primary endpoint was change in patient-reported "Off" time to Month 36. Safety was assessed by monitoring serious adverse events (SAEs). RESULTS: Significant improvements in "Off" time were maintained over 3 years (mean [SD]: -3.3 hours [3.7]; pâ<â0.001). There were significant improvements to Month 36 in total scores of the Unified Dyskinesia Rating Scale (-5.9 [23.7]; pâ=â0.044), Non-Motor Symptoms Scale (-14.3 [40.5]; pâ=â0.002), Parkinson's Disease Sleep Scale-2 (-5.8 [12.9]; pâ<â0.001), and Epworth Sleepiness Scale (-1.8 [6.0]; pâ=â0.008). Health-related quality of life and caregiver burden significantly improved through Months 24 and 30, respectively (Month 24, 8-item Parkinson's Disease Questionnaire Summary Index, -6.0 [22.5]; pâ=â0.006; Month 30, Modified Caregiver Strain Index, -2.3 [7.6]; pâ=â0.026). Safety was consistent with the well-established LCIG profile (SAEs: 54.9% of patients; discontinuations: 54.4%; discontinuations due to an adverse event: 27.2%). Of 106 study discontinuations, 32 patients (30.2%) continued LCIG outside the study. CONCLUSION: DUOGLOBE demonstrates real-world, long-term, reductions in motor and non-motor symptoms in patients with aPD treated with LCIG.
Asunto(s)
Levodopa , Enfermedad de Parkinson , Humanos , Levodopa/efectos adversos , Carbidopa/efectos adversos , Enfermedad de Parkinson/tratamiento farmacológico , Enfermedad de Parkinson/diagnóstico , Antiparkinsonianos/efectos adversos , Estudios Prospectivos , Calidad de Vida , Combinación de Medicamentos , Geles/uso terapéuticoRESUMEN
Recent surveys suggest that the abuse of drugs, often in combination, is pervasive throughout society. Adverse consequences of drug abuse tend to be attributed to the single drug "most likely" to be responsible. This is frequently seen in fatality cases, particularly those involving opioids. However, it is difficult to determine the specific cause of death when multiple drugs are involved. Although enhanced toxicity of alcohol and other centrally acting drugs with opioids has been well established in animal studies, there is a paucity of data in well-controlled human studies. We evaluated 1014 fatality cases involving oxycodone (OXC) for evidence of enhanced toxicity associated with multiple drug-drug interactions. We previously reported on these cases, and we classified them by a standardized method into groups that distinguished cases unrelated to drug abuse from those related to drug abuse, cases that involved only OXC from cases involving multiple drugs, drug-induced fatalities from drug-related fatalities, and cases in which the specific drug product OxyContin (oxycodone HCl controlled-release) Tablets were identified from cases where OxyContin was not identified. Our working hypothesis was that OXC in combination with other centrally acting drugs is more toxic than OXC alone, evidenced by the finding of lower mean blood concentrations of OXC in multiple-drug-induced deaths compared to single (OXC only)-drug-induced deaths. Assessment of blood levels determined by specific assay methodology (primarily gas chromatography-mass spectrometry) in these cases provided the following mean postmortem concentrations of OXC: multiple-drug-induced deaths, OxyContin identified, 0.93 microg/mL (N = 167); multiple-drug-induced deaths, OxyContin not identified, 0.73 microg/mL (N = 579); single (OXC)-drug-induced deaths, OxyContin identified, 1.55 microg/mL (N = 12); and single (OXC)-drug-induced deaths, OxyContin not identified, 1.70 microg/mL (N = 15). Overall, mean OXC concentration trends were as follows: single (OXC)-drug-induced, drug-abuse deaths > multiple-drug-induced drug-abuse deaths > drug-related drug-abuse deaths approximately deaths unrelated to drug abuse; and deaths in which OxyContin was identified approximately deaths in which OxyContin was not identified, whether the deaths involved oxycodone alone or multiple drugs. Drug abuse patterns in the multiple-drug-induced cases were complex. Over 135 drugs that were considered to be plausibly contributory to enhanced toxicity were identified in body fluids and tissues. Evaluation of mean OXC blood concentrations in cases that contained one, two, three, four, five, and six or more contributory drugs in combination demonstrated consistently lower mean OXC concentrations than those cases in which OXC was the only drug identified. A smaller number of cases were evaluated in the multiple-drug-induced groups in which OXC was paired with a single other contributory drug. The overall mean OXC concentration for these cases was 0.71 microg/mL (N = 90) as compared to 1.64 microg/mL (N = 27) for the cases in the single drug-induced groups. The consistent finding of lower mean OXC blood levels associated with multiple-drug-induced fatalities supports the stated hypothesis that OXC in combination with other centrally active drugs is more toxic than when OXC was the only drug involved. It was concluded that in cases of multiple-drug fatalities, cause of death (COD) should not be attributed to any single drug. Rather, the unique combination of drugs, the pattern of drug use/abuse, and individual factors, such as tolerance to the respiratory depressant effects of opioids, must be taken into account in arriving at a valid COD statement.
Asunto(s)
Narcóticos/sangre , Oxicodona/sangre , Trastornos Relacionados con Sustancias/mortalidad , Causas de Muerte , Sinergismo Farmacológico , Humanos , Narcóticos/envenenamiento , Oxicodona/envenenamiento , Trastornos Relacionados con Sustancias/sangre , Estados Unidos/epidemiologíaRESUMEN
Recent surveys suggest that the abuse of drugs, often in combination, is pervasive throughout society. Adverse consequences of drug abuse tend to be attributed to the single drug "most likely" to be responsible. This is frequently seen in fatality cases, particularly those involving opioids. However, it is difficult to determine the specific cause of death when multiple drugs are involved. Although enhanced toxicity of alcohol and other centrally acting drugs with opioids has been well established in animal studies, there is a paucity of data in well-controlled human studies. We evaluated 1014 fatality cases involving oxycodone (OXC) for evidence of enhanced toxicity associated with multiple drug-drug interactions. We previously reported on these cases, and we classified them by a standardized method into groups that distinguished cases unrelated to drug abuse from those related to drug abuse, cases that involved only OXC from cases involving multiple drugs, drug-induced fatalities from drug-related fatalities, and cases in which the specific drug product OxyContin (oxycodone HCl controlled-release) tablets were identified from cases where OxyContin was not identified. Our working hypothesis was that OXC in combination with other centrally acting drugs is more toxic than OXC alone, evidenced by the finding of lower mean blood concentrations of OXC in multiple drug-induced deaths compared to single (OXC only) drug-induced deaths. Assessment of blood levels determined by specific assay methodology (primarily gas chromatography-mass spectrometry) in these cases provided the following mean postmortem concentrations of OXC: multiple drug-induced deaths, OxyContin identified, 0.93 mg/mL (N = 167); multiple drug-induced deaths, OxyContin not identified, 0.73 mg/mL (N = 579); single (OXC) drug-induced deaths, OxyContin identified, 1.55 mg/mL (N = 12); and single (OXC) drug-induced deaths, OxyContin not identified, 1.70 mg/mL (N = 15). Overall, mean OXC concentration trends were as follows: single (OXC), drug-induced, drug abuse deaths > multiple, drug-induced drug abuse deaths > drug-related drug abuse deaths approximately deaths unrelated to drug abuse; and deaths in which OxyContin was identified approximately deaths in which OxyContin was not identified, whether the deaths involved oxycodone alone or multiple drugs. Drug abuse patterns in the multiple drug-induced cases were complex. Over 135 drugs that were considered to be plausibly contributory to enhanced toxicity were identified in body fluids and tissues. Evaluation of mean OXC blood concentrations in cases that contained one, two, three, four, five, and six or more contributory drugs in combination demonstrated consistently lower mean OXC concentrations than those cases in which OXC was the only drug identified. A smaller number of cases were evaluated in the multiple drug-induced groups in which OXC was paired with a single other contributory drug. The overall mean OXC concentration for these cases was 0.71 mg/mL (N = 90) as compared to 1.64 mg/mL (N = 27) for the cases in the single drug-induced groups. The consistent finding of lower mean OXC blood levels associated with multiple drug-induced fatalities supports the stated hypothesis that OXC in combination with other centrally active drugs is more toxic than when OXC was the only drug involved. It was concluded that in cases of multiple drug fatalities, cause of death (COD) should not be attributed to any single drug. Rather, the unique combination of drugs, the pattern of drug use/abuse, and individual factors, such as tolerance to the respiratory depressant effects of opioids, must be taken into account in arriving at a valid COD statement.
Asunto(s)
Narcóticos/sangre , Oxicodona/sangre , Trastornos Relacionados con Sustancias/mortalidad , Causas de Muerte , Sinergismo Farmacológico , Humanos , Narcóticos/envenenamiento , Oxicodona/envenenamiento , Estados Unidos/epidemiologíaRESUMEN
An oxycodone postmortem database was created from 1243 solicited cases from Medical Examiner and Coroner (ME/C) offices in 23 states in the United States over the period from August 27, 1999, through January 17, 2002. The request for cases was specific to only those cases in which the ME/C opined that the death involved oxycodone. Each case was evaluated to determine the role of oxycodone and the specific drug product OxyContin tablets in the death. Oxycodone identification was based on toxicology testing, and OxyContin identification was based on evidence found at the scene, credible witness reports, or identification of tablets in gastrointestinal contents. A system of case categorization was developed for this study based on the Drug Abuse Warning Network (DAWN) system for reporting drug abuse mortality data in the United States, using the same standardized, well-understood terminology. Of the 1243 cases, 79 cases were incomplete and could not be evaluated. There were an additional 150 cases submitted in which oxycodone was not identified by the originating ME/C. Of the remaining 1014 cases, 919 (90.6%) were related to drug abuse, whereas 95 (9.4%) cases were categorized as not involving drug abuse. Only 30 (3.3%) of the drug abuse cases involved oxycodone as the single reported chemical entity; of these, 12 cases had OxyContin identified as a source of oxycodone. Of the 919 drug abuse cases, the vast majority (N = 889, 96.7%) were multiple drug abuse deaths in which there was at least one other plausible contributory drug in addition to oxycodone. The most prevalent drug combinations were oxycodone in combination with benzodiazepines, alcohol, cocaine, other narcotics, marijuana, or antidepressants. Using the DAWN definitions, drug abuse cases were further categorized as drug-induced or drug-related. A total of 851 (92.6%) cases met the criteria for classification as being drug-induced, and the remaining 68 (7.4%) cases were categorized as drug-related. Cause of death (COD) statements from the originating ME/C indicated a general recognition of the role of abuse of multiple drugs in causing fatalities. Approximately 70% of the 889 cases in the multiple-drug-induced categories were listed in the COD or contributing COD statements as multiple-drug deaths. A variety of terms were employed in the COD statements to indicate multiple drug involvement such as "polydrug toxicity", "polypharmacy", "multiple drug poisoning", and "polypharmaceutical overdose". The system for death classification employed in this study recognizes the problems inherent in COD attribution when multiple drugs are involved. Use of this new system for reporting mortality data in future studies involving opioids is recommended.