Intestinal Gel Infusion Research Articles

Population pharmacokinetics of levodopa in subjects with advanced Parkinson's disease: levodopa‐carbidopa intestinal gel infusion vs. oral tablets

AimsLevodopa-carbidopa intestinal gel (LCIG) provides continuous levodopa-carbidopa delivery through intrajejunal infusion. This study characterized the population pharmacokinetics of levodopa following a 16 h jejunal infusion of LCIG or frequent oral administration of levodopa-carbidopa tablets (LC-oral) in subjects with advanced Parkinson's disease (PD).MethodsA non-linear mixed-effects model of levodopa pharmacokinetics was developed using serial plasma concentrations from an LCIG phase 1 study and a phase 3 double-blind, double-dummy study of the efficacy and safety of LCIG compared with LC-oral in advanced PD patients (n = 68 for model development; 45 on LCIG and 23 on LC-oral). The final model was internally evaluated using stochastic simulations and bootstrap and externally evaluated using sparse pharmacokinetic data from 311 subjects treated in a long term safety study of LCIG.ResultsThe final model was a two compartment model with a transit compartment for absorption, first order elimination, bioavailability for LCIG (97%; confidence interval = 95% to 98%) relative to LC-oral, different first order transit absorption rate constants (LCIG = 9.2 h–1 vs. LC-oral = 2.4 h–1; corresponding mean absorption time of 7 min for LCIG vs. 25 min for LC-oral) and different residual (intra-subject) variability for LCIG (15% proportional error, 0.3 μg ml−1 additive error) vs. LC-oral (29% proportional error, 0.59 μg ml−1 additive error). Estimated oral clearance and steady-state volume of distribution for levodopa were 24.8 l h−1 and 131 l, respectively.ConclusionsLCIG administration results in faster absorption, comparable levodopa bioavailability and significantly reduced intra-subject variability in levodopa concentrations relative to LC-oral administration.

Dopamine Pumps for Parkinson Disease: Has the Time Come?

Oral treatments for Parkinson disease (PD) are limited mainly by the association with motor fluctuations and dyskinesia, leading to burgeoning interest in better, more continuous delivery strategies for advanced PD. In the trial, researchers tested the safety and efficacy of an intrajejunal levodopa–carbidopa intestinal gel infusion strategy that is investigational in the U.S. The manufacturer-sponsored, randomized, double-blind, double-dummy, double-titration trial was conducted at 26 centers in Germany, New Zealand, and the U.S. All participants underwent placement of a percutaneous gastrojejunostomy tube and were …

Intestinal levodopa infusion: the Belgian experience

Data concerning efficacy, safety, and patient satisfaction of levodopa/carbidopa intestinal gel (LCIG, Duodopa, AbbVie, Wavre, Belgium) infusion in routine clinical practice were needed to maintain reimbursement of the drug in Belgium. Patients with advanced Parkinson's disease in 27 neurology centers across Belgium were included. Of 100 patients who underwent naso-intestinal (NI) evaluation with LCIG, 67 received permanent treatment with LCIG via percutaneous endoscopic gastrostomy and jejunal tube (PEG/J). Efficacy was evaluated at baseline (on levodopa) and during a follow-up (FU) visit (on LCIG) using the Unified Parkinson's Disease Rating Scale (UPDRS) IV. Patient appraisal of the Duodopa system was evaluated using a visual analog scale for therapy compliance, user-friendliness, and global appreciation. Safety was assessed by reporting suspected adverse drug reactions (ADRs) and medical device-related complaints. FU evaluations were conducted in 37 patients. Significant improvement at FU was observed for motor complications (UPDRS IV) as the mean change from baseline to FU was -6.3 (95 % CI -8.1 to -4.5). Patient appraisal showed high scores for hospital delivery, user-friendliness, and patient global appreciation, as well as family appreciation of the system on daily life. Few ADRs and system malfunctions were reported, with no unexpected ADRs. In conclusion, the symptoms and impact of Parkinsonism improved markedly when LCIG PEG/J was initiated.

Continuous intrajejunal infusion of levodopa-carbidopa intestinal gel for patients with advanced Parkinson's disease: a randomised, controlled, double-blind, double-dummy study

Levodopa is the most effective therapy for Parkinson's disease, but chronic treatment is associated with the development of potentially disabling motor complications. Experimental studies suggest that motor complications are due to non-physiological, intermittent administration of the drug, and can be reduced with continuous delivery. We aimed to assess efficacy and safety of levodopa-carbidopa intestinal gel delivered continuously through an intrajejunal percutaneous tube. In our 12-week, randomised, double-blind, double-dummy, double-titration trial, we enrolled adults (aged ≥ 30 years) with advanced Parkinson's disease and motor complications at 26 centres in Germany, New Zealand, and the USA. Eligible participants had jejunal placement of a percutaneous gastrojejunostomy tube, and were then randomly allocated (1:1) to treatment with immediate-release oral levodopa-carbidopa plus placebo intestinal gel infusion or levodopa-carbidopa intestinal gel infusion plus oral placebo. Randomisation was stratified by site, with a mixed block size of 2 or 4. The primary endpoint was change from baseline to final visit in motor off-time. We assessed change in motor on-time without troublesome dyskinesia as a prespecified key secondary outcome. We assessed efficacy in a full-analysis set of participants with data for baseline and at least one post-baseline assessment, and imputed missing data with the last observation carried forward approach. We assessed safety in randomly allocated patients who underwent the percutaneous gastrojejunostomy procedure. This study is registered with ClinicalTrials.gov, numbers NCT00660387 and NCT0357994. From baseline to 12 weeks in the full-analysis set, mean off-time decreased by 4.04 h (SE 0.65) for 35 patients allocated to the levodopa-carbidopa intestinal gel group compared with a decrease of 2.14 h (0.66) for 31 patients allocated to immediate-release oral levodopa-carbidopa (difference -1.91 h [95% CI -3.05 to -0.76]; p=0.0015). Mean on-time without troublesome dyskinesia increased by 4.11 h (SE 0.75) in the intestinal gel group and 2.24 h (0.76) in the immediate-release oral group (difference 1.86 [95% CI 0.56 to 3.17]; p=0.0059). In the safety analyses 35 (95%) of 37 patients allocated to the levodopa-carbidopa intestinal gel group had adverse events (five [14%] serious), as did 34 (100%) of 34 patients allocated to the immediate-release oral levodopa-carbidopa group (seven [21%] serious), mainly associated with the percutaneous gastrojejunostomy tube. Continuous delivery of levodopa-carbidopa with an intestinal gel offers a promising option for control of advanced Parkinson's disease with motor complications. Benefits noted with intestinal gel delivery were of a greater magnitude than were those obtained with medical therapies to date, and our study is, to our knowledge, the first demonstration of the benefit of continuous levodopa delivery in a double-blind controlled study. AbbVie.

Levodopa/carbidopa intestinal gel infusion in advanced Parkinson's disease: a 7‐year experience

Levodopa/carbidopa intestinal gel (LCIG) infusion is nowadays becoming an established therapeutic option for advanced Parkinson's disease (PD) patients with fluctuating symptoms unresponsive to conventional oral treatment. As the implementation of LCIG therapy is increasing, there is a need for safety and efficacy data from current clinical practice. All PD patients treated with LCIG at our centre over a 7-year period were analysed to determine the duration of treatment, retention rate, reasons for discontinuation, LCIG efficacy in motor complications, modifications of concomitant therapy and adverse events. Of the 59 patients, seven subjects (12%) died of causes unrelated to LCIG infusion and 11 patients (19%) discontinued therapy prior to the cut-off date. Duodopa improved motor complications and over 90% of patients reported an improvement in their quality of life, autonomy and clinical global status. The most common adverse events were dislocation and kinking of the intestinal tube. LCIG infusion is effective for the long-term treatment of advanced PD patients and exerts a positive and clinically significant effect on motor complications with a relatively low dropout rate.

Neuropathy in Parkinson’s Disease Patients with Intestinal Levodopa Infusion versus Oral Drugs

BackgroundSevere polyneuropathy has been observed in a number of patients treated for Parkinson’s disease with Levodopa/Carbidopa intestinal gel infusion. This may reflect a rare individual complication or a systematic side effect.ObjectiveTo investigate whether peripheral nerve function differed between patients with oral treatment versus Levodopa/Carbidopa intestinal gel infusion.MethodsIn an observational design, data from median, tibial, and peroneal neurography were prospectively assessed and compared between patients with conventional drug treatment (n = 15) and with Levodopa/Carbidopa intestinal gel infusion (n = 15). The groups were matched for age and disease duration. In view of the medical risk profile for polyneuropathy, comorbidity and basic serological parameters were assessed.ResultsAxonal neuropathy was common in both patient groups. However, although group differences in risk factors for polyneuropathy were not evident, neurographic abnormalities were more severe in the patients treated with Levodopa/Carbidopa intestinal gel infusion than in the orally treated patients. In the group with Levodopa/Carbidopa intestinal gel infusion, the degree of neuropathic change correlated with weight lost since therapy initiation and with the drug dose. In contrast to the axonal abnormalities, conduction velocity was found normal in both groups.ConclusionThe results are compatible with the promotion of axonal neuropathy by Levodopa/Carbidopa intestinal gel infusion. This could be due to the intrinsically high levodopa doses associated with the therapy and/or malnutritional effects from intestinal drug application. The results should be corroborated by a larger longitudinal and controlled trial.

Sleep improvement with levodopa/carbidopa intestinal gel infusion in Parkinson disease

Sleep disorders are common in patients with advanced Parkinson's disease (PD). Nocturnal akinesia and sleep fragmentation frequently coexist with daytime sleepiness, influencing daytime functioning. Levodopa/carbidopa intestinal gel (LCIG) infusion has been shown to improve motor complications in advanced PD, and preliminary findings suggest that sleep might improve following LCIG infusion. To analyze the impact of LCIG infusion on sleep symptoms and daytime sleepiness in patients with PD. Twelve consecutive patients with PD completed the PD-Sleep-Scale-version-2 (PDSS-2) and the Epworth-Sleepiness-Scale (ESS) at baseline and after 2-4months of LCIG treatment. Activities of daily living, motor symptoms and complications were assessed with the Unified-PD-rating-Scale section II, III, and IV. Nocturnal sleep improved substantially in all patients switched to LCIG infusion. PDSS-2 total score and subscores for 'Disturbed sleep', 'Motor symptoms at night', and 'PD symptoms at night' were significantly reduced. ESS measures of daytime sleepiness also improved. Motor complications and activities of daily living improved significantly with LCIG. Subjective measures of sleep quality and daytime sleepiness improve in patients with advanced PD undergoing LCIG infusion. Further studies with a larger number of patients and polysomnographic recordings are needed to confirm the beneficial effect on sleep and clarify the underlying mechanisms.

Refractory epileptic seizures due to vitamin B6 deficiency in a patient with Parkinson’s disease under duodopa® therapy

Levodopa/carbidopa intestinal gel (LCIG) infusion for the treatment of advanced Parkinson's disease (PD) has been suspected to provoke polyneuropathy in conjunction with vitamin B6, B12 and folate deficiency and elevated homocysteine levels. We describe a PD patient under LCIG therapy developing refractory epileptic seizures obviously promoted by vitamin B6 deficiency.

Levodopa/carbidopa intestinal gel infusion long‐term therapy in advanced Parkinson’s disease

Infusion of levodopa/carbidopa intestinal gel (Duodopa ; Abbott) was introduced in Sweden in 1991 as an experimental treatment in advanced Parkinson's disease and obtained EU approval in 2004. There is compelling evidence for short-term use of this treatment; however, long-term data are scarce. A retrospective review of medical records was performed. The primary objective was to assess the duration of treatment for all Swedish patients starting long-term levodopa/carbidopa gel therapy between January 1991 and June 2008. Secondary aims were to study demographics, treatment with anti-Parkinson's disease drugs and other concomitant medications, and reasons for discontinuation of levodopa/carbidopa gel. Of 150 identified patients, 135 were included in the study. On average, patients were 49 years at diagnosis of Parkinson's disease and 63 years when infusion therapy was initiated. The median treatment time on infusion was 3.4 years (range, 0-16 years). The restricted mean treatment time was nearly 8 years; 81 patients were still on treatment at the end of the study. Levodopa was used as monotherapy in a majority of patients. Dosage of the drug was stable over time. Thirty-one patients discontinued infusion prior to the cutoff date and 23 patients died. Device-related problems were the most common reason for discontinuation. Patients were more likely to discontinue infusion therapy before 2000. The year of infusion initiation was significantly earlier in the dropout group compared with a matched group of continuing patients. Levodopa/carbidopa intestinal gel infusion is a long-term treatment alternative in patients with advanced Parkinson's disease.

Two Decades of Evolving Care with Pump Therapies – What have we Learned?

Since the discovery that the gold standard treatment in Parkinson’s disease (PD), oral levodopa, contributes to motor fluctuations, the treatment strategy of delivering dopaminergic drugs in a continuous manner has been investigated. Motor fluctuations are believed to be the result of a combination of progressive denervation of the striatum with advancing disease and erratic gastric emptying with oral levodopa, which leads to peaks and troughs in plasma levodopa concentration and thus pulsatile stimulation of dopaminergic neurons. Methods have been developed to provide continuous dopaminergic stimulation, such as the delivery of apomorphine by subcutaneous infusion and levodopa/carbidopa by intestinal gel infusion. These therapies have been shown to significantly reduce ‘off’ time and improve motor fluctuations, and therefore have been a major advance in the management of PD.

Subcutaneous Apomorphine Infusion – An Update

Continuous delivery of dopaminergic drugs is an important treatment strategy to delay or reverse motor complications in Parkinson’s disease (PD). Subcutaneous apomorphine (APO) infusion has been shown (in uncontrolled studies) to significantly reduce ‘off’ time and dyskinesia duration and severity, and long-term data show the beneficial effects persist for several years. There is some evidence that the maximum antidyskinetic effect of APO infusion may be attained when oral medications are reduced or discontinued, making monotherapy an important clinical goal. Recent studies demonstrate possible positive effects of APO infusion on the non-motor symptoms of PD. However, more trials are needed to assess the neuropsychiatric effects of this treatment. Moreover, randomised controlled trials are needed to compare APO infusion with best medical treatment and with other invasive treatments such as levodopa/carbidopa intestinal gel infusion and deep brain stimulation.

Update on Levodopa/Carbidopa Intestinal Gel Infusion

Recent data on levodopa/carbidopa intestinal gel (LCIG) infusion are discussed in this article. LCIG infusion provides improvements in ‘off’ time and dyskinesia via continuous dopaminergic stimulation (CDS). In the long-term, LCIG infusion appears to maintain efficacy without the need to increase dosages. The growing number of publications on LCIG infusion shows the increasing experience and interest in this therapy. The new data demonstrate the effects of using LCIG infusion in combination with catechol-O-methyl transferase inhibitors, and technical improvements to the pump system (e.g., to the tubing). Despite the invasive nature of LCIG infusion, nearly all patients would recommend this treatment. Furthermore, a number of larger-scale studies on this particular CDS therapy are in progress.

The Timing of Continuous Dopaminergic Stimulation for Optimal Clinical Outcomes

The timing of continuous dopaminergic stimulation (CDS) treatment is an important consideration for achieving optimal motor functioning in Parkinson’s disease patients. Delaying treatment with levodopa/carbidopa intestinal gel (LCIG) infusion in patients with severe ‘on-off’ fluctuations may result in a poorer and slower response, while early initiation of CDS therapy increases the chance of achieving continuous ‘on’ without dyskinesia. Furthermore, overnight LCIG infusion is indicated when there is severe akinesia overnight, but daytime-only LCIG infusion treatment can lead to a reduction in overnight motor fluctuations after several months.

Beyond Motor Symptoms – Impact of Continuous Dopaminergic Stimulation on Non-motor and Social Aspects of Advanced Parkinson’s Disease

Two patient cases are presented here that illustrate the benefits of continuous dopaminergic stimulation on the non-motor symptoms of Parkinson’s disease. In both cases, levodopa/carbidopa intestinal gel infusion therapy led to improvements in anxiety, depression, concentration, urge incontinence, sexual function, sleep, vivid dreams and rapid eye movement sleep behaviour disorder, pain, sweating and feelings of self-assuredness. Such improvements have an impact on patients’ quality of life and can help their social functioning.

Levodopa infusion combined with entacapone or tolcapone in Parkinson disease: a pilot trial

Catechol-O-methyltransferase inhibitors may be used to decrease levodopa requirement. The objective was to investigate whether the levodopa/carbidopa intestinal gel infusion dose can be reduced by 20% without worsening of motor fluctuations and levodopa concentration stability when oral catechol-O-methyltransferase inhibitors are added. A short-term, randomized, partly blinded, crossover, investigator-initiated clinical trial was performed, with levodopa/carbidopa intestinal gel combined with oral entacapone and tolcapone on two different days in 10 patients. The primary outcome measure was difference in coefficient of variation of levodopa in plasma between levodopa/carbidopa, levodopa/carbidopa/entacapone, and levodopa/carbidopa/tolcapone. The secondary outcome measures other pharmacokinetic variables, patient-reported outcome, and blinded analysis of motor performance. Variation of plasma levodopa concentrations did not differ significantly between the treatments. The treatments did not differ regarding motor performance. Levodopa concentrations were significantly higher using tolcapone. Concentrations of the metabolite 3-O-methyldopa decreased gradually during catechol-O-methyltransferase inhibition. According to this small, short-term pilot study, oral catechol-O-methyltransferase inhibitors administered in 5-h intervals may be useful in cases where levodopa/carbidopa intestinal gel dose reduction is wanted. Stability of plasma levodopa levels is not significantly altered, and off-time is not increased when decreasing the levodopa/carbidopa intestinal gel dose by 20%. Rather, the dose should probably be decreased more than 20%, especially under tolcapone co-treatment, to avoid increased dyskinesias with time.

Malnutritional neuropathy under intestinal levodopa infusion

Levodopa/Carbidopa intestinal gel infusion (LCIG) for Parkinson's disease is under debate to provoke polyneuropathy (PNP). In our cohort of 20 thus treated patients, two developed debilitating axonal PNP with deficient pyridoxin and folate levels, and marginal cobalamin. Homocysteine was highly elevated. The neuropathies responded to vitamin replacement. We assume that LCIG can provoke PNP most likely of malnutritional origin. To avoid this side effect, the assessment of predisposing factors before treatment as well as neurophysiological and laboratory screenings appear necessary.