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Journal of Pain Research 2017Physician assistants (PAs), nurse practitioners (NPs), and registered nurses (RNs) provide professional services on pain management teams. This review provides an... (Review)
Review
OBJECTIVE
Physician assistants (PAs), nurse practitioners (NPs), and registered nurses (RNs) provide professional services on pain management teams. This review provides an overview of the practical management of chronic pain with intrathecal (IT) therapy using an interprofessional approach (eg, physicians and other health care professionals), with a focus on the contributions of PAs, NPs, and RNs.
METHODS
Narrative review based on literature searches of the Medline database and treatment guidelines on the use of IT therapy in the management of patients with chronic pain.
RESULTS
The specific roles and responsibilities of PAs, NPs, and RNs in the management of patients receiving IT therapy vary by practice. In many pain treatment centers, PAs, NPs, and RNs are responsible for patient education, postimplant maintenance, and ongoing supportive care of patients receiving IT therapy. Topics that we address include patient selection, patient expectations and goal setting, medication selection, outcome assessment, and treatment adjustment. Currently, morphine and ziconotide (a nonopioid, selective N-type calcium channel blocker) are the only agents approved by the US Food and Drug Administration for IT analgesia. We provide relevant information on the dosing, titration, and adverse effect management of these medications for PAs, NPs, and RNs responsible for administering IT therapy.
CONCLUSION
PAs, NPs, and RNs are valuable members of IT pain management teams. Treatment success requires ongoing monitoring of efficacy and adverse effects, with corresponding adjustments to medication selection and dosing, in addition to good communication among the health care professionals involved in patient care.
PubMed: 29138593
DOI: 10.2147/JPR.S142147 -
European Review For Medical and... Feb 2023The mere glimpse of venomous animals has always terrified humans because of the devastating effects of their venoms. However, researchers across the globe have isolated... (Review)
Review
The mere glimpse of venomous animals has always terrified humans because of the devastating effects of their venoms. However, researchers across the globe have isolated therapeutically active ingredients from these venoms and continue to explore them for drug leads. These efforts lead to the discovery of therapeutic molecules that the US-FDA has approved to treat different diseases, such as hypertension (Captopril), chronic pain (Ziconotide), and diabetes (Exenatide). The main active constituents of most venoms are proteins and peptides, which gained more attention because of advancements in biotechnology and drug delivery. The utilization of newer screening approaches improved our understanding of the pharmacological complexity of venom constituents and facilitated the development of novel therapeutics. Currently, with many venom-derived peptides undergoing different phases of clinical trials, more are in pre-clinical drug development phases. This review highlights the various sources of venoms, their pharmacological actions, and the current developments in venom-based therapeutics.
Topics: United States; Animals; Humans; Venoms; Chronic Pain; Drug Delivery Systems; Hypertension; United States Food and Drug Administration
PubMed: 36876699
DOI: 10.26355/eurrev_202302_31408 -
Marine Drugs Aug 2022Sea snails of the genus produce toxins that have been the subjects of numerous studies, projects, publications, and patents over the years. Since toxins were... (Review)
Review
Sea snails of the genus produce toxins that have been the subjects of numerous studies, projects, publications, and patents over the years. Since toxins were discovered in the 1960s, their biological activity has been thought to have high pharmaceutical potential that could be explored beyond the limits of academic laboratories. We reviewed 224 patent documents related to conotoxins and conopeptides globally to determine the course that innovation and development has taken over the years, their primary applications, the technological trends over the last six years, and the leaders in the field, since the only previous patent review was performed in 2015 and focused in USA valid patents. In addition, we explored which countries/territories protect their inventions and patents and the most relevant collaborations among assignees. We also evaluated whether academia or pharmaceutical companies are the future of conotoxin research. We concluded that the 224 conotoxin patents reviewed in this study have more academic value than industrial value, which was noted by the number of active patents that have not yet been licensed and the contributions to medical research, especially as tools to study neuropathic pain, inflammation, immunology, drug design, receptor binding sites, cancer, neurotransmission, epilepsy, peptide biosynthesis, and depression. The aim of this review is to provide an overview of the current state of conotoxin patents, their main applications, and success based on the number of licensing and products in the market.
Topics: Animals; Conotoxins; Conus Snail; Humans; Industry; Pharmaceutical Preparations
PubMed: 36005534
DOI: 10.3390/md20080531 -
Brain and Behavior Mar 2021This article summarizes recommendations made by six pain specialists who discussed the rationale for ziconotide intrathecal analgesia (ITA) and the requirement for...
This article summarizes recommendations made by six pain specialists who discussed the rationale for ziconotide intrathecal analgesia (ITA) and the requirement for evidence-based guidance on its use, from a European perspective. Riemser Pharma GmbH (Greifswald, Germany), which holds the European marketing authorization for ziconotide, hosted the meeting. The group agreed that ITA is under-used in Europe, adding that ziconotide ITA has potential to be a first-line alternative to morphine; both are already first-line options in the USA. Ziconotide ITA (initiated using a low-dose, slow-titration approach) is suitable for many patients with noncancer- or cancer-related chronic refractory pain and no history of psychosis. Adopting ziconotide as first-line ITA could reduce opioid usage in these patient populations. The group advocated a risk-reduction strategy for all candidate patients, including compulsory prescreening for neuropsychosis, and requested US-European alignment of the licensed starting dose for ziconotide: the low-and-slow approach practiced in the USA has a better tolerability profile than the fixed high starting dose licensed in Europe. Of note, an update to the European Summary of Product Characteristics is anticipated in early 2021. The group acknowledged that the Polyanalgesic Consensus Conference (PACC) treatment algorithms for ziconotide ITA provide useful guidance, but recommendations tailored specifically for European settings are required. Before a consensus process can formally begin, the group called for additional European prospective studies to investigate ziconotide in low-and-slow dosing strategies, in different patient settings. Such data would enable European guidance to have the most appropriate evidence at its core.
Topics: Analgesics, Non-Narcotic; Europe; Germany; Humans; Injections, Spinal; Pain Management; Prospective Studies; omega-Conotoxins
PubMed: 33690987
DOI: 10.1002/brb3.2055 -
Toxicon : Official Journal of the... Dec 2014Components from venoms have stimulated many drug discovery projects, with some notable successes. These are briefly reviewed, from captopril to ziconotide. However,... (Review)
Review
Components from venoms have stimulated many drug discovery projects, with some notable successes. These are briefly reviewed, from captopril to ziconotide. However, there have been many more disappointments on the road from toxin discovery to approval of a new medicine. Drug discovery and development is an inherently risky business, and the main causes of failure during development programmes are outlined in order to highlight steps that might be taken to increase the chances of success with toxin-based drug discovery. These include having a clear focus on unmet therapeutic needs, concentrating on targets that are well-validated in terms of their relevance to the disease in question, making use of phenotypic screening rather than molecular-based assays, and working with development partners with the resources required for the long and expensive development process.
Topics: Animals; Drug Discovery; Toxins, Biological
PubMed: 25448391
DOI: 10.1016/j.toxicon.2014.10.020 -
Marine Drugs Dec 2015Alzheimer's disease (AD) is a multifactorial neurodegenerative disorder. Current approved drugs may only ameliorate symptoms in a restricted number of patients and for a... (Review)
Review
Alzheimer's disease (AD) is a multifactorial neurodegenerative disorder. Current approved drugs may only ameliorate symptoms in a restricted number of patients and for a restricted period of time. Currently, there is a translational research challenge into identifying the new effective drugs and their respective new therapeutic targets in AD and other neurodegenerative disorders. In this review, selected examples of marine-derived compounds in neurodegeneration, specifically in AD field are reported. The emphasis has been done on compounds and their possible relevant biological activities. The proposed drug development paradigm and current hypotheses should be accurately investigated in the future of AD therapy directions although taking into account successful examples of such approach represented by Cytarabine, Trabectedin, Eribulin and Ziconotide. We review a complexity of the translational research for such a development of new therapies for AD. Bryostatin is a prominent candidate for the therapy of AD and other types of dementia in humans.
Topics: Alzheimer Disease; Aquatic Organisms; Bryostatins; Clinical Trials as Topic; Humans; Neuroprotective Agents; Seawater
PubMed: 26712769
DOI: 10.3390/md14010005 -
Pain Physician Dec 2021Numerous combination intrathecal drug therapy (CIDT) strategies exist and are utilized for varying pain syndromes, typically when monotherapy dose escalation or... (Review)
Review
BACKGROUND
Numerous combination intrathecal drug therapy (CIDT) strategies exist and are utilized for varying pain syndromes, typically when monotherapy dose escalation or medication alternation is deemed untenable or unfeasible. Unfortunately, the supportive evidence basis for the use of these strategies and specific drug combinations is generally lacking and unclear, with many medications being used for off-label indications.
OBJECTIVE
In this manuscript, we provide a robust exploration and analysis of the literature to provide an evidence-based narrative for the use of CIDT strategies in regard to clinical indications, pharmacologic parameters, specific drug combinations, safety profiles, and future directions.
STUDY DESIGN
Narrative review.
METHODS
This was an evidence based narrative performed after extensive review of the literature.
RESULTS
Variances in intrathecal pharmacokinetics and pharmacodynamics are utilized advantageously with CIDT strategies to achieve improved analgesic benefit; however, appropriate use may be limited by increased or compounded risk of adverse effects. The supportive evidence for CIDT use for chronic pain conditions is largely lacking and limited to small, uncontrolled, observational studies, with many having various confounding factors, including a lack of standardized dosing. The most evidenced CIDT strategies include polyanalgesia with morphine-ziconotide, opioid-clonidine, and morphine-bupivacaine. Notably, in addition to pain relief, morphine-bupivacaine has been shown to decrease early opioid escalation requirements.
LIMITATIONS
The supportive evidence for CIDT use for chronic pain conditions is largely lacking and limited to small, uncontrolled, observational studies, with many having various confounding factors including a lack of standardized dosing.
CONCLUSIONS
CIDT strategies and polyanalgesia combinations can be effective for treating various patient populations with chronic pain. The appropriate use of these strategies may be limited by increased or compounded risk of adverse effects, both of which are highly patient and scenario dependent. Therefore, practitioners should maintain a particularly low threshold of suspicion for adverse effects in patients with CIDT such that safety profiles associated with this therapy can be favorably maintained.
Topics: Analgesics, Opioid; Chronic Pain; Drug Therapy, Combination; Humans; Injections, Spinal; Morphine; Pain Management
PubMed: 34793643
DOI: No ID Found -
British Journal of Pharmacology Jun 2018Neuropathic pain remains poorly treated for large numbers of patients, and little progress has been made in developing novel classes of analgesics. To redress this... (Review)
Review
UNLABELLED
Neuropathic pain remains poorly treated for large numbers of patients, and little progress has been made in developing novel classes of analgesics. To redress this issue, ziconotide (Prialt™) was developed and approved as a first-in-class synthetic version of ω-conotoxin MVIIA, a peptide blocker of Ca 2.2 channels. Unfortunately, the impracticalities of intrathecal delivery, low therapeutic index and severe neurological side effects associated with ziconotide have restricted its use to exceptional circumstances. Ziconotide exhibits no state or use-dependent block of Ca 2.2 channels; activation state-dependent blockers were hypothesized to circumvent the side effects of state-independent blockers by selectively targeting high-frequency firing of nociceptive neurones in chronic pain states, thus alleviating aberrant pain but not affecting normal sensory transduction. Unfortunately, numerous drugs, including state-dependent calcium channel blockers, have displayed efficacy in preclinical models but have subsequently been disappointing in clinical trials. In recent years, it has become more widely acknowledged that trans-aetiological sensory profiles exist amongst chronic pain patients and may indicate similar underlying mechanisms and drug sensitivities. Heterogeneity amongst patients, a reliance on stimulus-evoked endpoints in preclinical studies and a failure to utilize translatable endpoints, all are likely to have contributed to negative clinical trial results. We provide an overview of how electrophysiological and operant-based assays provide insight into sensory and affective aspects of pain in animal models and how these may relate to chronic pain patients in order to improve the bench-to-bedside translation of calcium channel modulators.
LINKED ARTICLES
This article is part of a themed section on Recent Advances in Targeting Ion Channels to Treat Chronic Pain. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v175.12/issuetoc.
Topics: Animals; Calcium Channel Blockers; Calcium Channels; Chronic Pain; Humans
PubMed: 28320042
DOI: 10.1111/bph.13789 -
Pain Physician 2011Ziconotide is commonly used for intrathecal (IT) therapy of chronic pain, and has been recently indicated as a first-line IT drug. It is also extremely useful for...
BACKGROUND
Ziconotide is commonly used for intrathecal (IT) therapy of chronic pain, and has been recently indicated as a first-line IT drug. It is also extremely useful for patients intolerant or refractory to the common IT drugs (such as morphine). The literature, excluding registration studies, mostly includes small samples, and gives only fragmentary evidence on the long-term risks and benefits of ziconotide.
OBJECTIVE
To collect data on safety and efficacy of long-term ziconotide IT infusion in Italian pain centers.
STUDY DESIGN
Retrospective cohort study on the use of ziconotide in Italy. The study was designed and coordinated by the Foundation ISAL (Algological Sciences Research and Training Institute). Patients treated with ziconotide from several pain therapy and neurosurgery units were included in the study, allowing the creation of the first Italian Registry of Ziconotide.
SETTING
Seventeen Italian public and private pain and neurosurgery centers.
METHODS
Patients suffering from cancer or non-cancer intractable chronic pain who had been treated with ziconotide IT infusion for at least one month. Efficacy was analyzed considering changes on the visual analog scale of pain intensity from baseline observation. Safety was assessed by monitoring the number and intensity of adverse events.
RESULTS
Currently, 104 patients are included in the Italian Registry of Ziconotide. Ziconotide was administered as the first IT drug choice to 55 patients. Seventy-two patients reported at least a 30% pain intensity reduction with a mean dose of 4.36 ug/d. The sustained analgesic effect (P < 0.001) of the ziconotide IT therapy was observed in a group of 45 patients who remained in the study over 6 months without treatment interruptions and with relatively stable doses. Sixty-six patients reported at least one side effect related to ziconotide. However, adverse events have not always been decisive for treatment interruptions.
LIMITATIONS
Data were collected retrospectively from different pain centers that used different methods for ziconotide treatment and clinical forms for its data collection; for this reason there is an absence of standardized methodologies and a placebo-controlled group, and some data were missing.
CONCLUSIONS
Ziconotide IT therapy is a treatment option commonly used for clinical practice in 17 Italian pain therapy and neurosurgery units. It might give relief to patients with refractory chronic pain, and it seems to have a safe profile. Long-term studies and controlled trials are required.
Topics: Adult; Aged; Aged, 80 and over; Analgesia; Analgesics, Non-Narcotic; Cohort Studies; Female; Humans; Longitudinal Studies; Male; Middle Aged; Pain, Intractable; Registries; Retrospective Studies; Time; Treatment Outcome; omega-Conotoxins
PubMed: 21267038
DOI: No ID Found -
Marine Drugs Jun 2012Cone snails produce a distinctive repertoire of venom peptides that are used both as a defense mechanism and also to facilitate the immobilization and digestion of prey.... (Review)
Review
Cone snails produce a distinctive repertoire of venom peptides that are used both as a defense mechanism and also to facilitate the immobilization and digestion of prey. These peptides target a wide variety of voltage- and ligand-gated ion channels, which make them an invaluable resource for studying the properties of these ion channels in normal and diseased states, as well as being a collection of compounds of potential pharmacological use in their own right. Examples include the United States Food and Drug Administration (FDA) approved pharmaceutical drug, Ziconotide (Prialt(®); Elan Pharmaceuticals, Inc.) that is the synthetic equivalent of the naturally occurring ω-conotoxin MVIIA, whilst several other conotoxins are currently being used as standard research tools and screened as potential therapeutic drugs in pre-clinical or clinical trials. These developments highlight the importance of driving conotoxin-related research. A PubMed query from 1 January 2007 to 31 August 2011 combined with hand-curation of the retrieved articles allowed for the collation of 98 recently identified conotoxins with therapeutic potential which are selectively discussed in this review. Protein sequence similarity analysis tentatively assigned uncharacterized conotoxins to predicted functional classes. Furthermore, conotoxin therapeutic potential for neurodegenerative disorders (NDD) was also inferred.
Topics: Amino Acid Sequence; Animals; Conotoxins; Humans; Molecular Sequence Data; Neurodegenerative Diseases; Peptides; Snails; Venoms
PubMed: 22822370
DOI: 10.3390/md10061244