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The safety of Lipistart, a medium-chain triglyceride based formula, in the dietary treatment of long-chain fatty acid disorders: a phase I study.
MacDonald, A, Webster, R, Whitlock, M, Gerrard, A, Daly, A, Preece, MA, Evans, S, Ashmore, C, Chakrapani, A, Vijay, S, et al
Journal of pediatric endocrinology & metabolism : JPEM. 2018;(3):297-304
Abstract
BACKGROUND Children with long-chain fatty acid β-oxidation disorders (LCFAOD) presenting with clinical symptoms are treated with a specialist infant formula, with medium chain triglyceride (MCT) mainly replacing long chain triglyceride (LCT). It is essential that the safety and efficacy of any new specialist formula designed for LCFAOD be tested in infants and children. METHODS In an open-label, 21-day, phase I trial, we studied the safety of a new MCT-based formula (feed 1) in six well-controlled children (three male), aged 7-13 years (median 9 years) with LCFAOD (very long chain acyl CoA dehydrogenase deficiency [VLCADD], n=2; long chain 3-hydroxyacyl CoA dehydrogenase deficiency [LCHADD], n=2; carnitine acyl carnitine translocase deficiency [CACTD], n=2). Feed 1 (Lipistart; Vitaflo) contained 30% energy from MCT, 7.5% LCT and 3% linoleic acid and it was compared with a conventional MCT feed (Monogen; Nutricia) (feed 2) containing 17% energy from MCT, 3% LCT and 1.1% linoleic acid. Subjects consumed feed 2 for 7 days then feed 1 for 7 days and finally resumed feed 2 for 7 days. Vital signs, blood biochemistry, ECG, weight, height, food/feed intake and symptoms were monitored. RESULTS Five subjects completed the study. Their median daily volume of both feeds was 720 mL (range 500-1900 mL/day). Feed 1 was associated with minimal changes in tolerance, free fatty acids (FFA), acylcarnitines, 3-hydroxybutyrate (3-HB), creatine kinase (CK), blood glucose, liver enzymes and no change in an electrocardiogram (ECG). No child complained of muscle pain or symptoms associated with LCFAOD on either feed. CONCLUSIONS This is the first safety trial reported of an MCT formula specifically designed for infants and children with LCFAOD. In this short-term study, it appeared safe and well tolerated in this challenging group.
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Clinical Profile of Statin Intolerance in the Phase 3 GAUSS-2 Study.
Cho, L, Rocco, M, Colquhoun, D, Sullivan, D, Rosenson, RS, Dent, R, Xue, A, Scott, R, Wasserman, SM, Stroes, E
Cardiovascular drugs and therapy. 2016;(3):297-304
Abstract
PURPOSE Recent evidence suggests that statin intolerance may be more common than reported in randomized trials. However, the statin-intolerant population is not well characterized. The goal of this report is to characterize the population enrolled in the phase 3 Goal Achievement after Utilizing an anti-PCSK9 antibody in Statin Intolerant Subjects Study (GAUSS-2; NCT 01763905). METHODS GAUSS-2 compared evolocumab, a fully human monoclonal antibody to proprotein convertase subtilisin/kexin type 9 (PCSK9) to ezetimibe in hypercholesterolemic patients who discontinued statin therapy due to statin-associated muscle symptoms (SAMS). GAUSS-2 was a 12-week, double-blind, placebo-controlled, randomized study that enrolled patients with elevated LDL-C who were either not on a statin or able to tolerate only a low-dose due to SAMS. Patients had received ≥2 statins and were unable to tolerate any statin dose or increase in dose above a specified weekly dose due to SAMS. RESULTS Three hundred seven patients (mean [SD] age, 62 [10] years; 54 % males) were randomized 2:1 (evolocumab:ezetimibe). Mean (SD) LDL-C was 4.99 (1.51) mmol/L. Patients had used ≥2 (100 %), ≥3 (55 %), or ≥4 (21 %) statins. Coronary artery disease was present in 29 % of patients. Statin-intolerant symptoms were myalgia in 80 % of patients, weakness in 39 %, and more serious complications in 20 %. In 98 % of patients, SAMS interfered with normal daily activity; in 52 %, symptoms precluded moderate exertion. CONCLUSION Evaluation of the GAUSS-2 trial population of statin-intolerant patients demonstrates that most patients were high risk with severely elevated LDL-C and many had statin-associated muscle symptoms that interfered with their quality of life.
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Creatine supplementation results in elevated phosphocreatine/adenosine triphosphate (ATP) ratios in the calf muscle of athletes but not in patients with myopathies.
Zange, J, Kornblum, C, Müller, K, Kurtscheid, S, Heck, H, Schröder, R, Grehl, T, Vorgerd, M
Annals of neurology. 2002;(1):126; author reply 126-7
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Analgesic profile of peroral and topical ketoprofen upon low pH-induced muscle pain.
Steen, KH, Wegner, H, Meller, ST
Pain. 2001;(1):23-33
Abstract
Topical analgesics are widely marketed for treatment of muscle and joint pain. We have recently developed a model of muscle pain and have used this model to evaluate the efficacy of commercially available topical and peroral ketoprofen in order to evaluate the time- and dose-dependence of analgesia. In the present study, we examined the dose- (0, 50, and 100 mg) and time-dependence (hourly to 8 h) of commercially available peroral and topical ketoprofen. In order to achieve infusion times of 8 h (and thus study the time course of analgesic action), we adapted the model of low pH-induced muscle pain in humans to these requirements by applying the infusions continuously for 10 min every hour for 8 h. We found that the 10 min infusion produced reliable and consistent pain levels that were reproducible over the 8 h of the study. The study was performed double-blind, randomized, and with a 1-week interval between each of five different sessions (cross-over). Altogether six volunteers underwent intramuscular infusions of isotonic phosphate-buffered saline solution of pH 5.2; during each 8 h session the infusion was switched on eight times with a duration of 10 min at 50 min intervals (there was no infusion during the 50 min interval). The intramuscular infusion of low pH phosphate buffer induced a localized dull-aching or stinging muscle pain sensation; the flow rate of the pH infusion was individually adjusted to induce pain of a magnitude of 20% on a visual analogue scale (ranging from "no pain" (0%) to "unbearable pain" (100%)). Twenty minutes after starting the infusion the volunteers received a capsule with either a placebo or 50 or 100 mg ketoprofen perorally and, in addition, either placebo gel or 50 or 100 mg of a 2.5% commercial ketoprofen gel was applied topically to the skin. One of the sessions included a placebo gel and an oral placebo. The intensity of the recurrent pain stimulus was significantly reduced by 59% following administration of 100 mg peroral ketoprofen within the first 3 h (P<0.03, Wilcoxon test); this analgesia lasted up to the sixth hour of the experimental protocol. Oral ketoprofen (50 mg) was less effective and reduced the pain intensity by 45% (P<0.05) from only the second to the third hour. In contrast, pain reduction after topical ketoprofen application was not of the same magnitude but appeared to be faster to develop (with a maximum effect within 1 h) on average. The maximum pain suppression with 100 mg topical 2.5% ketoprofen gel was by 51% (significant with P<0.03), while 50 mg topical ketoprofen produced a non-significant reduction of 29%. The apparent analgesia was rapid to develop but transient and pain ratings increased back to baseline values within 3 h for the 100 mg dose and within 2 h for the 50 mg dose. This data suggests that topical application of commercial gel-based systems does not provide long-lasting analgesia in the muscle when compared to perorally-dosed ketoprofen. In addition, the data show that even doses of 100 mg peroral ketoprofen do not provide complete relief of muscle pain.
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Exercise test in muscle channelopathies and other muscle disorders.
Kuntzer, T, Flocard, F, Vial, C, Kohler, A, Magistris, M, Labarre-Vila, A, Gonnaud, PM, Ochsner, F, Soichot, P, Chan, V, et al
Muscle & nerve. 2000;(7):1089-94
Abstract
We studied the percentage change in compound muscle action potential (CMAP) amplitude and area during and after a 5-min maximal contraction of the muscle. The exercise test (ET) was performed on 64 patients with different muscle disorders and on 46 normal controls. The range of normal ET values was defined as the mean + 2 SD of the control values. The mean sensitivity of the test was 63% in the whole group with ion channel muscle disorders, the highest sensitivity being seen in primary periodic paralysis (81%) and the lowest in chloride channelopathies (17%). In thyrotoxic periodic paralysis, the ET was abnormal in the three of the four patients studied. In patients with myotonic dystrophy, a smaller than normal increase in CMAP amplitude occurred during and after exercise, whereas in proximal myotonic myopathy a normal initial increase in CMAP amplitude was followed by an abnormal decrement. We conclude that the ET can be of use in confirming abnormal muscle membrane excitability in patients with calcium and sodium channelopathies and thyrotoxic periodic paralysis. In chloride channelopathy, the test may also be abnormal, but shows no, or only a small, increase in amplitude or area in the immediate postexercise period. The test may also be abnormal in proximal myotonic myopathy, but is normal in myotonic dystrophy.