Blockage Of Blood Vessels Research Articles

Development of Blocked Blood Vessel Model for Treatment of Retinal Vascular Occlusion

Development of Blocked Blood Vessel Model for Treatment of Retinal Vascular Occlusion

HUBUNGAN PELAKSANAAN SCREENING TEST MENELAN DENGAN KEJADIAN DISFAGIA PADA PASIEN BARU YANG MENDERITA STROKE AKUT

According to the NINDS 2015, States that a stroke occurs when the blood supply to brain fails suddenly interrupted due to a blockage or rupture of blood vessels were. Basic Health Research results that show an increase in the prevalence of stroke symptoms in Indonesia increased from 8.3 at 1000 in 2007 to 12.1 and at 1000 in 2013. One of the problems that arise due to stroke is a disorder of swallowing or dysphagia. According to the World Stroke Academy Learning Moduls in 2012 the prevalence of dysphagia in stroke sufferers range from 36 to 67%. In the year 2016 in RSSN dysphagia in stroke patients 22,94%. For early detection of dysphagia screening test required to swallow as a first step in identifying the risks due to dysphagia and aspiration in stroke patients. The purpose of this research is to know the relationship of the implementation of the screening test to swallow with dysphagia in acute stroke patients in the room just entered inpatient Neurology RSSN Bukittinggi in 2017. This research method using analytic, descriptive, then the data was processed using the Chi Square test. The sample in this study as many as 54 people respondents. Test result statistics retrieved value p value = 0.002 (p < α) then it can be inferred the existence of a relationship between the implementation of the screening test to swallow with dysphagia in acute stroke patients the new entry. Analysis of the results obtained OR = 9.281 meaning respondents who perform screening test procedures in accordance with the swallow has a chance of 9.281 times in detecting the occurrence of dysphagia. Suggestions in this study is the implementation of a screening test this swallow can be included in SPO for nurses in Bukittinggi in the room especially RSSN Neurology in detecting the onset of dysphagia in acute stroke patients.

Relationship Of Family Support With Quality of Life (QOL) Stroke Occurrence

World Health Organization (WHO) states that the clinical signs that develop rapidly due to focal or global brain function disorders due to a blockage or rupture of blood vessels in the brain that lasted for 24 hours or more.This study aims to determine the Family Support Relationship With Quality of Life on Stroke Occurrence at Poly Nerve General Hospital of Makassar Hajj Area 2017. The research design was observational with cross sectional approach. Sample amounted to 54 by using simple random sampling technique. The result of the research was obtained by informational support with x2 count (4,352)> x2 table (3,841), emotional support p value (0,751)> 0,05, instrumental support with p value (0,346)> 0,05, award support with value x2 count (5,178)> x2 table (3,841). Based on the results of the study, the conclusion of this study found that there is a relationship of informational support and awards support, While emotional support and instrumental support is not associated with Quality of Life stroke incidence. This study suggests to families to provide more support to patients so as to improve the quality of life.Keywords : Family Support and Quality of Life (QOL)

A Novel Thrombolytic and Anticoagulant Serine Protease from Polychaeta, Diopatra sugokai.

Ischemic stroke can result from blockage of blood vessels, forming fibrin clots in the body and causing irreparable brain damage. Remedial thrombolytic agents or anticoagulants have been studied; however, because the FDA-approved tissue plasminogen activator has low efficacy and side effects, it is necessary to develop safer and more effective treatment candidates. This study aimed at assessing the fibrinolytic and anticoagulation features of a novel serine protease extracted and purified from Diopatra sugokai, a polychaeta that inhabits tidal flats. The purified serine protease was obtained through ammonium sulfate precipitation, affinity chromatography, and ion-exchange chromatography. Its molecular size was identified via SDS-PAGE. To characterize its enzymatic activities, the protease activity at various pH and temperatures, and in the presence of various inhibitors, was measured via azocasein assay. Its fibrinolytic activity and anticoagulant effect were assessed by fibrin zymography, fibrin plate assay, and fibrinogenolytic activity assays. The novel 38 kDa serine protease had strong indirect thrombolytic activity rather than direct activity over broad pH (4-10) and temperature (37°C-70°C) ranges. In addition, the novel serine protease exhibited anticoagulant activity by degrading the α-, β-, and γ-chains of fibrinogen. In addition, it did not produce cytotoxicity in endothelial cells. Therefore, this newly isolated serine protease is worthy of further investigation as a novel alkaline serine protease for thrombolytic therapy against brain ischemia.

THE INFLUENCE OF TRADITIONAL FOOD ON INCIDENCEOF STROKE IN BANDA ACEH

Stroke is a partial loss of brain function that occurs suddenly as a result of a blockage or rupture of blood vessels of the brain. Stroke has become an important public health problem in the world, including Indonesia and Aceh. Eating habits which are influenced by culture, customs, religion, and beliefs play an important role in the incidence process of the disease.The aim of this research is to determine the influence of the Acehnese traditional food on the incidence of stroke.This research is descriptive research with cross sectional approach. The population is all outpatients in December 2014 to February 2015 at Zainal Abidin Hospital."Accidental sampling" is the sampling technique that used in this research. The result indicates that Acehnese traditional food influences greatly the incidence of stroke. Some recommendations are related to the Acehnese people to consume foods with balanced nutrition so that it can reduce the incidenceKeywords:traditional food of aceh, stroke

Medical microrobots have potential in surgery, therapy, imaging, and diagnostics

Trypanosoma brucei , the pathogen that causes sleeping sickness, has a clever and insidious trick to help it navigate its hosts’ innards: It changes shape depending on its surroundings. In bodily fluids, the bacterium assumes a long and narrow shape to propel itself forward, whipping its tail-like flagellum and spinning like a corkscrew. In other settings and life stages, when it doesn't need motility, it shortens into a stumpy blob. In 2014, researchers at ETH Zurich devised microrobots that propel themselves by twisting, something like an artificial flagellum. Researchers direct the microrobots with external magnetic fields. Reproduced with permission from ref. 12. To Bradley Nelson, an engineer at ETH Zurich, the T. brucei ’s potentially deadly shape-shifting ability was both revelation and inspiration. “Parasites have evolved these interesting strategies to survive and move,” he says. “As an engineer, I’m not sure I’d ever have sat down and described something like that from scratch.” His laboratory focuses on developing microrobots that can navigate the human body to perform tasks, such as delivering drugs to a tumor or mechanically clearing blocked blood vessels. In July 2016, Nelson and his team introduced a T. brucei -inspired “origami robot,” a self-folding micromachine, made from a hydrogel, that optimizes its shape according to the viscosity and temperature of its environment (1). It propels itself forward—in experiments, through a viscous sugar solution—by whipping a flagellum-like tail. Scientists steer it by manipulating external magnetic fields. Nelson is among a cadre of scientists who are designing ever-smaller robots that have the potential to improve the precision of medicine. Broadly, the field of “medical microrobots” includes small devices from a millimeter down to a few microns. All aim to safely invade the body and improve health—by diagnosing or monitoring a disease, such as Alzheimer’s, in real time, measuring …

Executive dysfunction and blockage of brain microvessels in a rat model of vascular cognitive impairment

Most research focuses on overt stroke caused by blockage of major blood vessels. Less attention has been paid to small vessel disease which gives rise to covert stroke that often leads to vascular cognitive impairment (VCI). One reason for this may be the relative lack of relevant animal models. Herein, we describe, a model of VCI induced in middle-aged Sprague-Dawley rats exposed to a diet high in saturated fats, salt and refined sugar (HFSS). In Experiment 1, rats were fed HFSS and subjected to a small mediodorsal (MD) thalamic stroke with or without concomitant permanent bilateral carotid artery occlusion. MD lesions produce significant executive dysfunction in an attention set-shift task (p = 0.012). In Experiment 2, rats were exposed to either HFSS or control diet and functional effects assessed. We found significant hypertension (p = 0.013), blockage of brain microvessels (p = 0.018) and white matter atrophy (p = 0.039) in HFSS diet animals. As in Experiment 1, profound, specific set-shifting executive dysfunction was noted (p = 0.003) following both small MD infarcts (0.332 mm3) and the HFSS diet. In summary, these data describe a middle-aged animal model of VCI that includes clinically relevant metabolic disturbances and small vessel disease and as such may be helpful in developing new cognitive therapies.

Phase transitions during compression and decompression of clots from platelet-poor plasma, platelet-rich plasma and whole blood.

The objective of this paper is to measure and mathematically model the compression behavior of various human blood clots. We show by a combination of confocal and scanning electron microscopy that compression proceeds by the passage of a front through the sample that separates a densified region of the clot from a rarefied region, and that the compression/decompression response is reversible with hysteresis. These observations form the basis of a model for the compression response of clots based on the continuum theory of phase transitions. Our studies may reveal how clot rheology under large compression in vivo due to muscle contraction, platelet retraction and hydrodynamic flow varies under various pathophysiological conditions and could inform the design of fibrin based biomaterials.

Polymerization kinetics of a mixture of Lipiodol and Glubran 2 cyanoacrylate glue upon contact with a proteinaceous solution

The Glubran 2 cyanoacrylate glue is a liquid embolic agent used to block blood vessels endovascularly. Typically mixed with an iodized oil (Lipiodol) for visualization under X-ray, it polymerizes when in contact with blood and tissues owing to the presence of ions and proteins. The objective of the study is to determine the influence of plasma proteins in the polymerization reaction. A triggering solution containing bovine serum albumin (BSA) and the main blood ions is used as a model of plasma. The polymerization kinetics of Glubran 2-Lipiodol mixtures is measured upon aspiration in a capillary tube and contact with the proteinaceous solution. Having varied the glue and protein concentrations, we show that glue-Lipiodol mixtures with concentrations larger or equal to 25% polymerize when put in contact with an ionic solution containing at least 4% of BSA. The reaction is decomposed into two phases: a fast zwitterionic polymerization induced by the BSA molecules followed by a slower polymerization phase. The reaction speed and extent of the solidification region mostly depend on the glue concentration. The time for the glue solution to polymerize over a 1mm thickness varies from 5s for pure glue to about 1min for a 50% glue concentration, and 10min for a 25% glue mixture. It is the first time that the kinetics of the two polymerization reactions is quantified for Glubran 2, which will provide the information needed by interventional radiologists to optimize the planning of endovascular glue injection.

Modeling of Biodegradable Polyesters With Applications to Coronary Stents

The interest in biodegradable polymers for clinical and biomedical engineering applications has seen a dramatic increase in the last 10 years. Recent innovations include bioresorbable polymeric stents (BPS), which are temporary vascular scaffolds designed to restore patency and provide short-term support to a blocked blood vessel, before becoming naturally resorbed over time. BPS offer possibilities to overcome the long-term complications often observed with the permanent metallic stents, well established in the treatment of coronary and peripheral artery disease. From the perspective of designing next generation BPS, the bulk degradation behavior of the polymer material adds considerable complications. Computational modeling offers an efficient framework to predict and provide understanding into the behavior of medical devices and implants. Current computational modeling techniques for the degradation of BPS are either phenomenologically or physically based. In this work, a physically based polymer degradation model is implemented into a number of different computational frameworks to investigate the degradation of a number of polymeric structures. A thermal analogy is presented to implement the degradation model into the commercially available finite-element code, abaqus/standard. This approach is then applied to the degradation of BPS, and the effects of material, boundary condition, and design on the degradation rates of the stents are examined. The results indicate that there is a notable difference in the molecular weight trends predicted for the different materials and boundary condition assumptions investigated, with autocatalysis emerging as a dominant mechanism controlling the degradation behavior. Insights into the scaffolding ability of the various BPS examined are then obtained using a suggested general relationship between Young's modulus and molecular weight.

Purification of serine protease from polychaeta, Lumbrineris nipponica, and assessment of its fibrinolytic activity

Ischemic stroke and cardiovascular disease can occur from blockage of blood vessels by fibrin clots formed naturally in the body. Therapeutic drugs of anticoagulant or thrombolytic agents have been studied; however, various problems have been reported such as side effects and low efficacy. Thus, development of new candidates that are more effective and safe is necessary. The objective of this study is to evaluate fibrinolytic activity, anti-coagulation, and characterization of serine protease purified from Lumbrineris nipponica, polychaeta, for new thrombolytic agents. In the present study, we isolated and identified a new fibrinolytic serine protease from L. nipponica. The N-terminal sequence of the identified serine protease was EAMMDLADQLEQSLN, which is not homologous with any known serine protease. The size of the purified serine protease was 28kDa, and the protein purification yield was 12.7%. The optimal enzyme activity was observed at 50°C and pH 2.0. A fibrin plate assay confirmed that indirect fibrinolytic activity of the purified serine protease was higher than that of urokinase-PA, whereas direct fibrinolytic activity, which causes bleeding side effects, was relatively low. The serine protease did not induce any cytotoxicity toward the endothelial cell line. In addition, anticoagulant activity was verified by an in vivo DVT animal model system. These results suggest that serine protease purified from L. nipponica has the potential to be an alternative fibrinolytic agent for the treatment of thrombosis and use in various biomedical applications.

Roles of RUNX in Hypoxia-Induced Responses and Angiogenesis.

During the past two decades, Runt domain transcription factors (RUNX1, 2, and 3) have been investigated in regard to their function, structural elements, genetic variants, and roles in normal development and pathological conditions. The Runt family proteins are evolutionarily conserved from Drosophila to mammals, emphasizing their physiological importance. A hypoxic microenvironment caused by insufficient blood supply is frequently observed in developing organs, growing tumors, and tissues that become ischemic due to impairment or blockage of blood vessels. During embryonic development and tumor growth, hypoxia triggers a stress response that overcomes low-oxygen conditions by increasing erythropoiesis and angiogenesis and triggering metabolic changes. This review briefly introduces hypoxic conditions and cellular responses, as well as angiogenesis and its related signaling pathways, and then describes our current knowledge on the functions and molecular mechanisms of Runx family proteins in hypoxic responses, especially in angiogenesis.

CHEMOPROTECTIVE EFFECT OF NONI (MORINDA CITRIFOLIA L.) FRUIT JUICE AGAINST CISPLATIN-INDUCED NEPHROTOXICITY

<p><strong>Objective: </strong>Cisplatin<strong> (</strong>CIS) consumption has become a common problem that affects the health of patients around the globe. Kidney has been suspected to be particularly susceptible to the destructive effects of CIS and nephrotoxic effects are still contentious which in turn affects the Quality of Life (QoL) of patients and increase the mortality rate. This study was conducted to investigate the nephroprotective effect of Noni Juice (NJ) and Divine Noni Gold (DNG) as herbal medicine with established antioxidant properties against the controversial nephrotoxic effect of CIS in mice.</p><p><strong>Methods: </strong>Mice were divided into four groups, each group contained six mice. Group I was kept as normal, Group II received CIS (5.0 mg/kg b. wt. i. p.) on day one for 14 d. <strong>G</strong>roup III and IV received NJ (0.35 ml/mouse p. o.) and DNG (0.35 ml/mouse p. o.) respectively once daily for 14 d, Group V received CIS (5.0 mg/kg b. wt. i. p.) on day one and NJ (0.35 ml/mouse p. o.) once daily for 14 d. Similarly, Group VI received CIS (5.0 mg/kg b. wt. i. p.) on day one and DNG (0.35 ml/mouse p. o.) once daily for 14 d. On day 15 blood from all the mice was collected from the carotid vein and cardiac puncture routes, and the biochemical markers viz. lactate dehydrogenase (LDH), creatinine phosphokinase (CPK), urea were assessed. Kidney from all the animals was isolated, and catalase (CAT), glutathione (GSH), superoxide dismutase (SOD), thiols and lipid peroxidase (LPO) were estimated.</p><p><strong>Results: </strong>CIS-induced marked kidney injury; congestion of tubules, glomerular distortion foci, thickened and blocked blood vessels. Also showed significant elevation of LDH, CPK, and urea with significant inhibition of CAT, GSH, SOD, thiols activities and simultaneously elevation of LPO level. Co-administration of NJ and DNG respectively with CIS protected kidney tissues via oxidative stress inhibition.</p><p><strong>Conclusion: </strong>NJ and DNG possess protective effect against CIS-induced cellular damage in the kidney by decreasing the level of serum biochemical markers, enhancing the level of enzymatic and non-enzymatic antioxidants and maintaining the LPO level. Results suggest that NJ and DNG have strong nephroprotective effect against CIS-induced nephrotoxicity.</p>

Eutrophication, Ammonia Intoxication, and Infectious Diseases: Interdisciplinary Factors of Mass Mortalities in Cultured Nile Tilapia.

The present study was designed to assess the possible causes of the mass mortalities of Nile Tilapia Oreochromis niloticus at El-Behera Governorate, Egypt, in relationship to environmental and microbiotic factors. Water samples were collected from fish farms at different locations and from Lake Edku to analyze water temperature, water pH, salinity, biological oxygen demand, dissolved oxygen, total ammonia nitrogen, and un-ionized ammonia. A number of moribund and freshly dead fish were sampled and submitted to our laboratory for microbiological, molecular, and histopathological examination. Water analysis of the fish farms revealed noticeable increases in the previously mentioned physicochemical parameters. Clinical examinations of moribund fish showed severe gill rot and massive external and internal hemorrhages. Ordinary and molecular laboratory findings confirmed the presence of Branchiomyces sp. in gill tissue and mixed bacterial fish pathogens (Streptococcus agalactiae, Vibrio alginolyticus, V. parahaemolyticus, Pseudomonas anguilliseptica, and P. aeruginosa) in visceral organs. The histopathological and transmission electron microscopic examinations revealed severe necrosis of gill filaments and blockage of branchial blood vessels and lamellar capillaries with Branchiomyces sp. hyphae and spores mixed with different shapes of bacteria. Severe inflammations were detected in liver, kidney, heart, and brain tissues. Ultimately, we can conclude that the syndrome of mass fish kills in this area is a consequence of ecological damage to the aquatic environment, which is mainly related to natural and anthropogenic factors, as well as to the presence of infectious agents. Received September 30, 2015; accepted April 12, 2016.

Potential Biomarkers in Stroke and Current Therapeutics

Stroke is a brain injury where a sudden interruption of the blood supply in brain part and the brain does not receive the enough blood flow due to which there is a lack of oxygen and glucose and without blood supply the brain cells begin to die (cerebral infarction) and cause brain damage. So there is a need to understand the pathophysiology and to effective biomarkers in acute ischemic stroke and may help to enhance the current clinical outcome of stroke. Various biomarkers are associated with the pathophysiologic mechanism and they may help in stroke assessment, diagnosis, prognosis or treatment. There is a higher rate of morbidity and mortality in stroke. Hence a better pharmacological management is desired for the fast recovery and treatment from stroke. Thrombolytics, antihypertensive, anti-platelet therapy, antioxidants, rehabilitation technique and their combinations e.g. Aspirin and clopidogrel, Aspirin and dipyridamole, ramipril and telmisartan, IgGglial cell-lined derived neurotropic factor (GDNF) and IgG – tumor necrosis factor receptor(TNFR) etc. and various surgical treatment such as carotid endarterectomy, stereotactic radiosurgery, hypothermia, revascularization of the blood supply, endovascular treatment of aneurysms and angioplasty and stenting of vessels in the neck and brain are also required for the beneficial outcomes in future. Key-wordsStroke, Biomarker, Pathophysiology, Combinational therapy, Surgical treatment -------------------------------------------------IJLSSR----------------------------------------------INTRODUCTION Stroke is a neurological disease which cause of disability and death (1). The blood supply of brain in stroke is obstructed because of ischemia and hemorrhage which causes the brain dysfunctioning. Ischemia caused by blockage in blood vessels via thrombosis and arterial embolism vasoconstriction. In ischemia reduction in sufficient blood flow to alter the normal cellular function (2). Stroke has two major categories of brain ischemia one is global-ischemia and other one is focal ischemia. In focal ischemia models, the middle cerebral artery is occluded, either temporarily (vessels are blocked up to 3 hrs) or permanently (vessels) are blocked usually for one or more days) to allow the reperfusion (3-4). Access this article online Quick Response Code: Website: www.ijlssr.com

The Effect of An Angiogenic Cytokine on Orthodontically Induced Inflammatory Root Resorption.

Orthodontically induced inflammatory root resorption (OIIRR) is an undesirable sequel of tooth movement after sterile necrosis that takes place in periodontal ligament due to blockage of blood vessels following exertion of orthodontic force. This study sought to assess the effect of an angiogenic cytokine on OIIRR in rat model. In this experimental animal study, 50 rats were randomly divided into 5 groups of 10 each: E10, E100 and E1000 receiving an injection of 10, 100 and 1000 ng of basic fibroblast growth factor (bFGF), respectively, positive control group (CP) receiving an orthodontic appliance and injection of phosphate buffered saline (PBS) and the negative control group (CN) receiving only the anesthetic agent. A nickel titanium coil spring was placed between the first molar and the incisor on the right side of maxilla. Twenty-one days later, the rats were sacrificed. Histopathological sections were made to assess the number and area of resorption lacunae, number of blood vessels, osteoclasts and Howship's lacunae. Data were statistically analyzed using ANOVA and Tukey's honest significant difference (HSD) test. Number of resorption lacunae and area of resorption lacunae in E1000 (0.97 ± 0.80 and 1. 27 ± 0.01×10(-3), respectively) were significantly lower than in CP (4.17 ± 0.90 and 2.77 ± 0.01×10-3, respectively, P=0.000). Number of blood vessels, osteoclasts and Howship's lacunae were significantly higher in E1000 compared to CP (P<0.05). Tooth movement as the outcome of bone remodeling is concomitant with the formation of sterile necrosis in the periodontal ligament following blocked blood supply. Thus, bFGF can significantly decrease the risk of root resorption by providing more oxygen and angiogenesis.

PH-Sensitive and Thermosensitive Hydrogels as Stem-Cell Carriers for Cardiac Therapy.

Stem-cell therapy has the potential to regenerate damaged heart tissue after a heart attack. Injectable hydrogels may be used as stem-cell carriers to improve cell retention in the heart tissue. However, current hydrogels are not ideal to serve as cell carriers because most of them block blood vessels after solidification. In addition, these hydrogels have a relatively slow gelation rate (typically >60 s), which does not allow them to quickly solidify upon injection, so as to efficiently hold cells in the heart tissue. As a result, the hydrogels and cells are squeezed out of the tissue, leading to low cell retention. To address these issues, we have developed hydrogels that can quickly solidify at the pH of an infarcted heart (6-7) at 37 °C but cannot solidify at the pH of blood (7.4) at 37 °C. These hydrogels are also clinically attractive because they can be injected through catheters commonly used for minimally invasive surgeries. The hydrogels were synthesized by free-radical polymerization of N-isopropylacrylamide, propylacrylic acid, hydroxyethyl methacrylate-co-oligo(trimethylene carbonate), and methacrylate poly(ethylene oxide) methoxy ester. Hydrogel solutions were injectable through 0.2-mm-diameter catheters at pH 8.0 at 37 °C, and they can quickly form solid gels under pH 6.5 at 37 °C. All of the hydrogels showed pH-dependent degradation and mechanical properties with less mass loss and greater complex shear modulus at pH 6.5 than at pH 7.4. When cardiosphere-derived cells (CDCs) were encapsulated in the hydrogels, the cells were able to survive during a 7-day culture period. The surviving cells were differentiated into cardiac cells, as evidenced by the expression of cardiac markers at both the gene and protein levels, such as cardiac troponin T, myosin heavy chain α, calcium channel CACNA1c, cardiac troponin I, and connexin 43. The gel integrity was found to largely affect CDC cardiac differentiation. These results suggest that the developed dual-sensitive hydrogels may be promising carriers for cardiac cell therapy.

Supervised method for blood vessel segmentation from coronary angiogram images using 7-D feature vector

With the recent advancement in medical image processing field and sophisticated simulation tools it has been possible to acquire useful information from raw images for different parts of the body. Coronary artery segmentation is the fundamental component which extract significant features from angiogram images. Cardiac catheterization is an invasive diagnostic procedure that provides important information about the structure and function of heart. The procedure usually involves X-ray images of heart, arteries using coronary angiography. The resultant images (coronary angiogram) are considered as best of way to diagnose cardiac heart disease. The main focus of coronary angiography is to find the blockage in major blood vessels, however if the blockage is not found in large blood vessels and patient persists to have pain (angina) then it is concluded that the patient is having micro vascular disease (MVD). MVD is caused by blockage or narrowing of small blood vessels in heart, unfortunately there is no specific test to diagnose MVD but it is common in people having diabetes and blood pressure. This paper proposes an automated method of vessel segmentation from coronary angiogram images using radial basis function and moment invariant-based features to extract the small blood vessel for diagnosis of MVD. Experimental results show that the proposed method is capable of extracting small blood vessels from coronary artery and can be a basis to identify key characteristics for MVD. The dataset of angiogram images have been provided by ISRA University Hospital and MATLAB is used for implementing the proposed method.

Drugs for preventing red blood cell dehydration in people with sickle cell disease.

Sickle cell disease is an inherited disorder of hemoglobin, resulting in abnormal red blood cells. These are rigid and may block blood vessels leading to acute painful crises and other complications. Recent research has focused on therapies to rehydrate the sickled cells by reducing the loss of water and ions from them. Little is known about the effectiveness and safety of such drugs. This is an updated version of a previously published review. To assess the relative risks and benefits of drugs to rehydrate sickled red blood cells. We searched the Cochrane Cystic Fibrosis and Genetic Disorders Group's Haemoglobinopathies Trials Register.Last search of the Group's Trials Register: 28 November 2015. Randomized or quasi-randomized controlled trials of drugs to rehydrate sickled red blood cells compared to placebo or an alternative treatment. Both authors independently selected studies for inclusion, assessed study quality and extracted data. Of the 51 studies identified, three met the inclusion criteria. The first study tested the effectiveness of zinc sulphate to prevent sickle cell-related crises in a total of 145 participants and showed a significant reduction in painful crises over one and a half years, mean difference -2.83 (95% confidence interval -3.51 to -2.15). However, analysis was restricted due to limited statistical data. Changes to red cell parameters and blood counts were inconsistent. No serious adverse events were noted in the study.The second study was a Phase II dose-finding study of senicapoc (a Gardos channel blocker) compared to placebo. Compared to the placebo group the high dose senicapoc showed significant improvement in change in hemoglobin level, number and proportion of dense red blood cells, red blood cell count and indices and hematocrit. The results with low-dose senicapoc were similar to the high-dose senicapoc group but of lesser magnitude. There was no difference in the frequency of painful crises between the three groups. A subsequent Phase III study of senicapoc was terminated early since there was no difference observed between the treatment and control groups in the primary end point of painful crises. While the results of zinc for reducing sickle-related crises are encouraging, larger and longer-term multicenter studies are needed to evaluate the effectiveness of this therapy for people with sickle cell disease.While the Phase II and the prematurely terminated phase III studies of senicapoc showed that the drug improved red cell survival (depending on dose), this did not lead to fewer painful crises.We will continue to run searches to identify any potentially relevant trials; however, we do not plan to update other sections of the review until new trials are published.

Injection of Pharmaceuticals Designed for Oral Use: Harms Experienced and Effective Harm Reduction Through Filtration.

Several pharmaceutical products are liable to 'abuse' or use outside their prescription, which frequently involves their injection. Examples are slow-release forms of morphine and oxycodone, and sublingual buprenorphine. During injection preparation, the drug is extracted into water, after crushing and heating the tablet if considered necessary. Since these products are designed for oral administration, they can contain excipients (ingredients other than the drug) which are poorly soluble, resulting in suspension of particles in the injection solution. Injected particles are able to produce medical complications such as the blockage of small blood vessels leading to ischaemia (inadequate blood flow) and tissue damage. Filtration can be used to remove particles from the suspension; including bacteria if the porosity is small enough (0.2μm). However, filters are liable to blockage when overloaded, especially if the pore size is small. This problem can be minimised by using a larger pore size (e.g. 5-10μm), but the resulting filtrate will contain many residual small particles. The use of two filters, coarse and fine, either sequentially or in a double membrane device, enables removal of the majority of particles as well as bacteria, although not quite meeting pharmaceutical standards for safe injection. Although not yet evaluated by a clinical trial, this highly effective filtration process would be expected to greatly reduce the risk of vascular and related complications, as well as non-viral infections. Careful technique ensures that drug is not lost by filtration, a priority for most drug consumers. Practical issues that affect acceptability of filtration by injecting drug users, including ease of use and cost, will need to be considered. However, given the laboratory evidence demonstrating the effectiveness of filters it is time to consider these tools as essential for safe injection as sterile needles/syringes for the world's approximately 16 million people who inject drugs.