Orthostatic hypotension and orthostatic hypertension are both associated with lower cognitive function: The S.AGES cohort.

BACKGROUND: Blood pressure (BP) postural changes, both orthostatic hypotension (OHYPO) and orthostatic hypertension (OHYPER) are common in older adults. Few studies have investigated their association with cognition, particularly for OHYPER, an emerging cardiovascular risk factor. We aimed to assess the association between OHYPO, OHYPER and cognition in non-institutionalized older subjects. METHODS: The S.AGES (Sujets ÂGES, Aged Subjects) cohort followed every 6 months for 3 years non-institutionalized subjects aged ≥65 years without dementia at inclusion, in France. OHYPO and OHYPER were respectively defined as a fall or an increase of ≥20 mmHg in systolic BP and/or ≥10 mmHg in diastolic BP after standing from a sitting position. Cognition was assessed using the Mini-Mental State Examination (MMSE). Linear mixed models were used for the analyses. RESULTS: Among the 3170 subjects included (mean age 78 years, 56% women), 209 (6.5%) had OHYPO and 226 (7.1%) had OHYPER at baseline. After adjustment for demographics, cardiovascular risk factors and disease, seated SBP/DBP and BP lowering treatment, mean MMSE was 0.52 point lower in participants with OHYPER compared to those with normal BP postural changes (ß adjusted [95% CI] = -0.52 [-0.96; -0.09], p = 0.02) and 0.50 point lower in participants with OHYPO compared to those with normal BP postural changes (ß adjusted [95% CI] = -0.50 [-0.95; -0.06], p = 0.03). Sensitivity analyses showed a dose-response relationship between OHYPO and cognition. CONCLUSION: Although the absolute differences in MMSE were small, both OHYPO and OHYPER were associated with lower cognition. Orthostatic BP measurements could help identify patients with risk of cognitive impairment. Further studies are needed to assess whether controlling orthostatic BP could be a promising interventional target in preserving cognition among older adults.

[Medication reconciliation at hospital discharge focusing on patient with hypertension: Analysis of the output prescription]. / Conciliation médicamenteuse à la sortie d'hospitalisation du patient hypertendu : analyse de l'ordonnance de sortie.

PURPOSE: To describe pharmacists' interventions made at patients hospital discharge from Department of Hypertension. METHODS: This is a single-center and prospective study over an 8-week period. At hospital discharge, the pharmacist compared pre-admission and inpatient medications with discharge orders and written instructions. Pharmacists' interventions were then classified in 4 categories. All variances and discrepancies were discussed with the prescribing physician when possible. RESULTS: Over the 8-week period, 154 cases were analyzed. Pharmacists' interventions at discharge underwent 48 times on 21% of the patients (n=33) but none was clinically relevant. Among these 48 cases, 40% (n=19) were rated as "inappropriate administration", 27% (n=13) were classified as "incomplete prescription", 19% (n=9) were "variances" and 4% (n=2) were due to "omission prescription". In 10% of the cases (n=5), discrepancies appeared without any possible further analysis as no discussion with the prescriber occurred. CONCLUSION: One fifth of all patients analyzed was the subject of a pharmacists' intervention. The complementary action of the pharmacist improves the consistency of the prescriptions and strengthens patient safety.

[Place of clinical pharmacist in the management of drugs in patients with hypertension]. / Place du pharmacien clinicien dans la prise en charge thérapeutique du patient hypertendu.

PURPOSE: To synthesize pharmacists' interventions made in the department of internal medicine and hypertension of university hospital of Toulouse and assess the impact on medication orders. METHODS: This is a single-center, prospective study using pharmacists' interventions recorded between September 2013 and March 2014 on the Act-IP(©) website of the French Society of Clinical Pharmacy. The clinical pharmacist is present everyday in the unit to establish the medication reconciliation of new patients (the process of comparing a patient's medication orders to all of the medications that the patient has been taking), and analysis of medication orders. When a risk of iatrogenic drug is identified, a therapeutic change is proposed to the prescriber. RESULTS: A total of 2491 medication orders were analyzed for 7 months, leading to 39 pharmacists' interventions (1.6 pharmacists' interventions per 100 medication orders). The most commonly identified drug-related problems were improper administration (33%, n=13), not prescribed drug (21%, n=8), non-conformity to guidelines (18%, n=7), supratherapeutic dose (15%, n=6), and 13% (n=5) targeted prescribed treatment not administered, underdosing, incorrect administration or drug interaction. The most relevant molecules were atorvastatin (10%), bromazepam (8%) and levothyroxine (8%) and only 2 interventions targeted antihypertensive drugs. The rate of physicians' acceptance was 92%. CONCLUSION: Pharmacists' interventions mainly concern the co-prescriptions of antihypertensive drugs and very few antihypertensive drugs. The clinical pharmacist contributes to preventing iatrogenic in patients with hypertension with a very good acceptance by the clinician.

Evaluation of alginate microspheres for mesenchymal stem cell engraftment on solid organ.

Mesenchymal stem cells (MSCs) may be used as a cell source for cell therapy of solid organs due to their differentiation potential and paracrine effect. Nevertheless, optimization of MSC-based therapy needs to develop alternative strategies to improve cell administration and efficiency. One option is the use of alginate microencapsulation, which presents an excellent biocompatibility and an in vivo stability. As MSCs are hypoimmunogenic, it was conceivable to produce microparticles with [alginate-poly-L-lysine-alginate (APA) microcapsules] or without (alginate microspheres) a surrounding protective membrane. Therefore, the aim of this study was to determine the most suitable microparticles to encapsulate MSCs for engraftment on solid organ. First, we compared the two types of microparticles with 4 × 10(6) MSCs/ml of alginate. Results showed that each microparticle has distinct morphology and mechanical resistance but both remained stable over time. However, as MSCs exhibited a better viability in microspheres than in microcapsules, the study was pursued with microspheres. We demonstrated that viable MSCs were still able to produce the paracrine factor bFGF and did not present any chondrogenic or osteogenic differentiation, processes sometimes reported with the use of polymers. We then proved that microspheres could be implanted under the renal capsule without degradation with time or inducing impairment of renal function. In conclusion, these microspheres behave as an implantable scaffold whose biological and functional properties could be adapted to fit with clinical applications.

Viability and functionality of bovine chromaffin cells encapsulated into alginate-PLL microcapsules with a liquefied inner core.

Implantation of adrenal medullary bovine chromaffin cells (BCC), which synthesize and secrete a combination of pain-reducing neuroactive compounds including catecholamines and opioid peptides, has been proposed for the treatment of intractable cancer pain. Macro- or microencapsulation of such cells within semipermeable membranes is expected to protect the transplant from the host's immune system. In the present study, we report the viability and functionality of BCC encapsulated into microcapsules of alginate-poly-L-lysine (PLL) with a liquefied inner core. The experiment was carried out during 44 days. Empty microcapsules were characterized in terms of morphology, permeability, and mechanical resistance. At the same time, the viability and functionality of both encapsulated and nonencapsulated BCC were evaluated in vitro. We obtained viable BCC with excellent functionality: immunocytochemical analysis revealed robust survival of chromaffin cells 30 days after isolation and microencapsulation. HPLC assay showed that encapsulated BCC released catecholamines basally during the time course study. Taken together, these results demonstrate that viable BCC can be successfully encapsulated into alginate-PLL microcapsules with a liquefied inner core.

Intrathecal grafting of porcine chromaffin cells reduces formalin-evoked c-Fos expression in the rat spinal cord.

Chromaffin cells from the adrenal gland secrete a combination of neuroactive compounds including catecholamines, opioid peptides, and growth factors that have strong analgesic effects, especially when administered intrathecally. Preclinical studies of intrathecal implantation with xenogeneic bovine chromaffin cells in rats have provided conflicting data with regard to analgesic effects, and recent concern over risk of prion transmission has precluded their use in human clinical trials. We previously developed a new, safer source of adult adrenal chromaffin cells of porcine origin and demonstrated an in vivo antinociceptive effect in the formalin test, a rodent model of tonic pain. The goal of the present study was to confirm porcine chromaffin cell analgesic effects at the molecular level by evaluating neural activity as reflected by spinal cord c-Fos protein expression. To this end, the expression of c-Fos in response to intraplantar formalin injection was evaluated in animals following intrathecal grafting of 10(6) porcine or bovine chromaffin cells. For the two species, adrenal chromaffin cells significantly reduced the tonic phases of the formalin response. Similarly, c-Fos-like immunoreactive neurons were markedly reduced in the dorsal horns of animals that had received injections of xenogeneic chromaffin cells. This reduction was observed in both the superficial (I-II) and deep (V-VI) lamina of the dorsal horn. The present study demonstrates that both xenogeneic porcine and bovine chromaffin cells transplanted into the spinal subarachnoid space of the rat can suppress formalin-evoked c-Fos expression equally, in parallel with suppression of nociceptive behaviors in the tonic phase of the test. These findings confirm previous reports that adrenal chromaffin cells may produce antinociception by inhibiting activation of nociceptive neurons in the spinal dorsal horn. Taken together these results support the concept that porcine chromaffin cells may offer an alternative xenogeneic cell source for transplants delivering pain-reducing neuroactive substances.

Intrathecal xenogeneic chromaffin cell grafts reduce nociceptive behavior in a rodent tonic pain model.

Adrenal medullary chromaffin cells synthetize and secrete a combination of pain-reducing neuroactive compounds including catecholamines and opioid peptides. Previous reports have shown that implantation of chromaffin cells into the spinal subarachnoid space can reduce both acute and chronic pain in several animal models. We recently demonstrated that human chromaffin cell grafts in the cerebrospinal fluid (CSF) could alleviate intractable cancer pain after failure of systemic opiates. However, wider application of this approach was limited by the limited availability of allogeneic donor material. Alternatively, chromaffin cells from xenogeneic sources such as bovine adrenal medulla were successful in the experimental treatment of pain, but recent concern over risk of prion transmission precluded use of bovine grafts in human clinical trials. The objective of the present study was to investigate the possibility of developing a new xenogeneic porcine source of therapeutic chromaffin cells because this strategy is currently considered the safest for transplantation in man. In the present study, we report the isolation and the characterization of primary porcine chromaffin cells (PCC) compared to bovine cells. We show, for the first time, that these cells grafted in the rat subarachnoid space can attenuate pain-related behaviors as assessed by the formalin test, a model of tonic pain. Moreover, in addition to behavioral studies, immunohistochemical analysis revealed robust survival of chromaffin cells 35 days after transplantation. Taken together, these results support the concept that porcine chromaffin cells may offer an alternative xenogeneic cell source for transplants delivering pain-reducing neuroactive substances.

[Intrathecal baclofen. Experimental and pharmacokinetic studies]. / Baclofène intrathecal. Historique, preuves expérimentales, et données pharmacocinétiques.

Baclofen, the most effective drug to treat spasticity, is a specific agonist of gamma-aminobutyric acid-B receptors, and is very abondant in the superficial layers of the spinal cord. Given orally, baclofen does not easily penetrate the blood-barrier, and is distributed equally to the brain and spinal cord. After oral administration of baclofen, the drug is resorbed by more than 80-90% in the stomach and bowel and is eliminated by urinary excretion. Failure of oral medication to produce sufficient relief of spasticity is due to the poor passage of the drug across the blood-brain barrier. In animals the concentration in brain is less than 1/10 of the blood levels. The problem of insufficient anti-spastic efficacy (in relation to the rate of side-effects) after systemic medication may be overcome by local application in spinal CSF. Direct intrathecal administration of baclofen in the treatment of severe spasticity was proposed in 1984 by Richard Penn with the objective to carry out a selective spinal distribution of the active principle thus avoiding supraspinal side effects. The pharmacokinetics of baclofen in animal and man after intrathecal administration have been investigated to determine the CSF pharmacokinetic parameters.

The surgical management of spasticity.

Neurosurgery is only considered for severe spasticity following the failure of noninvasive management (adequate medical and physical therapy). The patients are carefully selected, based on rigorous multidisciplinary clinical assessment. In this we evaluate the contribution of the spasticity to the disability and any residual voluntary motor function. The goals for each patient are: (a) improvement of function and autonomy; (b) control of pain; and (c) prevention of orthopaedic disorders. To achieve these objectives, the surgical procedure must be selective and reduce the excessive hypertonia without suppressing useful muscle tone and limb functions. The surgical procedures are: (1) Classical neuro-ablative techniques (peripheral neurotomies, dorsal rhizotomies) and their modern modifications using microsurgery and intra-operative neural stimulation (dorsal root entry zone: DREZotomy). These techniques are destructive and irreversible, with the reduced muscle tone reflecting the nerve topography. It is mainly indicated when patients have localized spasticity without useful mobility. (2) Conservative techniques based on a neurophysiological control mechanism. These procedures are totally reversible. The methods involve chronic neurostimulation of the spinal cord or the cerebellum. There are only a few patients for whom this is indicated. Conversely, chronic intrathecal administration of baclofen, using an implantable pump, is well established in the treatment of diffuse spasticity of spinal origin. From reports in the literature, we critically review the respective indications in terms of function, clinical progression and the topographic extent of the spasticity.

A new method for encapsulation of living cells: preliminary results with PC12 cell line.

A new method is described for encapsulation of living cells. PC12 rat adrenal pheochromocytoma cells, which have been shown to synthesize, store and release dopamine were employed. The particles are made first and the cells then incorporated in a gentle mechanical procedure. The morphology (by light and electron microscopic observation), stability, rheology, texture and permeability of these microcapsules provided by Kappa Biotech were investigated. Membrane permeability studies demonstrated exclusion of 69,000 Da human serum albumin, but equilibrium of D-glucose and inulin was within 24h, indicating a molecular weight cut-off in the 5000-70,000 Da range. The viability and the function of the encapsulated cells were evaluated by measuring the spontaneous release of dopamine by high performance liquid chromatography with electrochemical detection. The results show that dopamine-secreting cells can be sequestered in a semi-permeable capsule and still display good viability and proliferation for at least 1 month.

[Management of intractable cancer pain: from intrathecal morphine to cell allograft]. / Traitement des douleurs chroniques rebelles d'origine cancéreuse: de la morphinothérapie intrathécale à la thérapie cellulaire.

The durable effectiveness of intrathecal morphine administration is well established for the management of intractable cancer pain, after failure of systemic opioids, secondary to the persistence of non-reversible undesirable side effects. Many patients are referred to late in the disease course. This conservative method to control pain of malignant origin must not be reserved for last resort treatment for terminal patients. Intra-cerebro-ventricular morphine administration is a very effective and generally safe method for controlling intractable cancer pain. Because of the chronic implantation of an intra-ventricular catheter this method is somewhat invasive. Its indications remain a simple and effective alternative when the topography of nociceptive pain is diffuse or cephalic. In clinical practice, intrathecal and/or intra-cerebro-ventricular administration of opioids is limited by cost, the need for specialized maintenance and mechanical malfunctions if implantable drug delivery systems, or by the risk of bacterial contamination and ambulatory constraints when repeated daily injections via an intrathecal access port are used. To answer these limitations, cell therapy using intrathecal chromaffin cell allograft is a promising approach for the management of cancer pain refractory to traditional drug therapy and pain lesion surgery. The basic rationale and preclinical studies on experimental pain models have enabled starting prospective clinical trials. Prior to transplantation, handling and preparation of the chromaffin tissue is critical for allograft viability. The initial results of clinical trials with human chromaffin cell grafts from intractable cancer pain have reported long-lasting pain relief, in correlation with met-enkephalin release into the CSF. Convincing evidence will require controlled studies. The limitations of this innovative cell therapy and especially the lack of human adrenal gland availability point to the need for new sources of cells. Perspectives include xenogenic or engineered cell lines.

Adrenal medullary explants as an efficient tool for pain control: adhesive biomolecular components are involved in graft function ex vivo.

Adrenal medullary (AM) tissue transplantation into the central nervous system has been reported as a potential source of opioid peptides and catecholamines, which have analgesic effects useful in the control of chronic pain. Clinical trials, involving allogeneic graft of whole tissue explants into the subarachnoid space of the lumbar spinal cord, have already been reported. The aim of the present study was to determine whether adhesion and function of AM explants were related in some extent and how this relationship could account for improvement of AM tissue in terms of analgesic activity before grafting. Our experiments demonstrated a significant correlation between the adherent state of AM organoids during culture and a sustained secretion of Met-enkephalin and catecholamines by chromaffin cells (CC). These findings suggest that optimal culture condition for AM organoid adhesion can be defined for maintenance of tissue, prior to transplantation. Using immunocytochemistry, flow cytometry, and ELISA assays we showed that different cell adhesion molecules (CAMs) and extracellular matrix ECM proteins were expressed and released by AM cells during culture. Adherent AM organoids expressed increased levels of specific neural CAMs (NCAM and HNK-1 epitope) and integrin chains (beta1, alpha1, alpha2, alpha4, alpha5) and deposited markedly higher levels of fibronectin, but also laminin and collagen IV. Those molecules and probably adhesion processes they control might be involved in the maintenance of the CC-secreting neuroendocrine phenotype through cellular signaling pathways.

[Clinical perspectives of xenografts: encapsulated chromaffin cells and pain]. / Perspectives cliniques des x¿enogreffes: cellules chromaffines encapsul¿ees et douleur.

Intrathecal allograft of chromaffin cells can be effectively used in replacement of more conventional therapies for treating intractable chronic pain, such as in cancer. The efficacy of this technique depends on the ability of those cells to produce analgesic opioids and on the immuno-privileged property of the central nervous system, in which rejection risks are limited. However, there are some limitations to the generalization of this new therapy, mainly due to the low number of available grafts. Thus other sources than humans have to be considered. Here we discuss the pros and cons of the xenogeneic chromaffin cells of bovine or porcine origin. Graft immuno-isolation, for example, by using cell encapsulation, seems to be unavoidable in spite of the graft site.

Intrathecal grafting of unencapsulated adrenal medullary tissue can bring CD4 T lymphocytes into CSF: a potentially deleterious event for the graft.

Adrenal medullary tissue including chromaffin cells was grafted intrathecally in cancer patients to relieve intractable pain. The central nervous system (CNS) is considered an immune privileged site. Therefore, non-HLA-matched and unencapsulated tissue was grafted in 15 patients and 1 sham control in a series of at least 20 grafts. We observed an increase in CSF lymphocyte counts in 15/20 allografts (75%). In contrast to peripheral blood, CD4 T cells predominated in the CSF, but failed to exhibit an activated phenotype (CD25+ CD45RO+ HLA-DR+). The positive effect of graft on pain, the high met-enkephalin levels, the absence of any increase in CSF cytokine levels particularly for IFN-gamma or IL-2 (but not IL-10 and IL-6), indirectly indicated that the graft was tolerated despite the presence of CSF lymphocytes. The single treatment failure and three of four cases of partial efficacy occurred in grafts where CSF lymphocytes were present. Moreover, when assayed (n = 7), the CD4+ CSF lymphocytes still retained the capacity to exhibit ex vivo a normal or enhanced frequency of T CD4 cells producing IFN-gamma and IL-2. Taken together, our observations indicate that impairment of the local immunosuppressive balance can lead to activation of those CSF CD4 T cells and drive a rejection process. This study suggests further work on the purification and/or the immunoisolation of tissues grafted in the CNS will be necessary, particularly when the possibility of long-term and repeated grafting is considered.

[Treatment of spasticity with the intrathecal administration of baclofen]. / Traitement de la spasticité par administration intra-thécale chronique de baclofène.

Direct intrathecal administration of baclofen in the treatment of severe spasticity was proposed in 1984 by Richard Penn with the objective to carry out a selective spinal distribution of the active principle thus avoiding supraspinal side effects. We presented our first results at the French Language Association of Neurosurgery in 1985 within the framework of a report on "Functional neurosurgery of cerebral palsy" (Neurochirurgie, 1985, 31 (suppl 1): 1-118). This study aims to specify the selection criteria and current indications of this method for the treatment of severe chronic diffused spasticity of spinal and cerebral origin in adults and in children. This report relates to our experience concerning 60 patients (10 children) that benefit from the use of a totally implantable system for chronic administration. The total follow-up of all patients was 48 months (from 3 to 140 months). The initial effective daily amount of baclofen was 156 micrograms/24 hours and progressed in time to reach in the long run 280 micrograms/24 hours, with a very broad interindividual variability from 36 to 1050 micrograms/24 hours. All the patients benefited from a reduction in muscular hypertonicity as well as painful muscular spasms. On the other hand, the functional improvement was very variable from one patient to another and depended primarily on the initial clinical state and the etiology of the spasticity. The results observed were more significant in post-traumatic paraplegia than those secondary to demyelination disease even if they were stabilized with regard to spasticity of spinal origin. This mode of administration currently plays a significant role in the treatment of spasticity of cerebral origin, in particular in children presenting a motor disorder of cerebral origin with spastic prevalence. The current limitations of this type of treatment are technical because of the frequent catheter malfunctions, but are due essentially to the importance and constraint of the multi-disciplinary organization needed for the out-patient follow-up.

Intracerebroventricular administration of morphine for control of irreducible cancer pain.

Intracerebroventricular morphine analgesic for the treatment of cancer pain was administered, using implanted access ports, in 82 patients from 1984 to January 1994. All of the patients who were selected for treatment were no longer responsive and had developed drug side effects to oral or parenteral opiates in varying doses (60-400 mg/d). The mean follow-up was 66 days (range, 12-443 d) for this series of 82 patients. The effective control of pain was achieved in nearly all of the patients, with only two failures. During the treatment, the daily morphine doses were moderately increased. The initial doses of morphine were a mean of 0.30 mg (range, 0.10-2 mg), and the final doses were a mean of 2.5 mg (range, 0.10-60 mg). The results show that the ratio of the terminal dose to the initial dose increased more rapidly for patients who had a follow-up of over 60 days. However, the increase seems to have been because of the progress of the disease rather than because of drug tolerance.

Transplantation of human chromaffin cells for control of intractable cancer pain.

Adrenal medullary chromaffin cells produce high levels of endogenous opioid peptides. Recent data suggest that transplantation injected locally into the spinal subarachnoid space reduced intractable malignant pain. In order to determine the feasibility, the efficacy and the risks of using adrenal medullary tissue for control of irreducible pain, we have developed a transplantation protocol on cancer pain patients selected when they required chronic intrathecal injection of morphine and progressively increasing doses to maintain the level of analgesic effects. At the present time, our clinical trial involves 8 patients. We report here our initial results (mean follow-up: 5 months). The various data collected before and after the intrathecal administration of chromaffin cells included: 1) Pain evaluation over time, with concomitant narcotic intake, 2) CSF sampling through an implanted access port to determine the following biological parameters: biochemical assay for opioid peptides, cell count and phenotyping of lymphocytes, 3) peripheral blood samples for lymphocyte typing. The results confirm the efficacy of adrenal medullary transplantation into spinal CSF for controlling irreducible cancer pain. Complementary intrathecal and oral morphine were totally stopped in 2 cases and stabilized in 5 others. It seems essential to have an important volume of grafted tissue to achieve analgesia with high levels of metenkephalin in CSF. A progressive decrease in metenkephalin release was observed from 2 to 4 months after the transplantation. Two patients with a long-term follow-up (8 and 12 months) needed another intrathecal chromaffin cell graft.