scholarly journals Visceral pressure stimulator for exploring hollow organ pain: a pilot study

2021 ◽  
Vol 20 (1) ◽  
Author(s):  
Michael DeLong ◽  
Mauricio Gil-Silva ◽  
Veronica Minsu Hong ◽  
Olivia Babyok ◽  
Benedict J. Kolber

Abstract Background The regulation and control of pressure stimuli is useful for many studies of pain and nociception especially those in the visceral pain field. In many in vivo experiments, distinct air and liquid stimuli at varying pressures are delivered to hollow organs such as the bladder, vagina, and colon. These stimuli are coupled with behavioral, molecular, or physiological read-outs of the response to the stimulus. Care must be taken to deliver precise timed stimuli during experimentation. For example, stimuli signals can be used online to precisely time-lock the stimulus with a physiological output. Such precision requires the development of specialized hardware to control the stimulus (e.g., air) while providing a precise read-out of pressure and stimulus signal markers. Methods In this study, we designed a timed pressure regulator [termed visceral pressure stimulator (VPS)] to control air flow, measure pressure (in mmHg), and send stimuli markers to online software. The device was built using a simple circuit and primarily off-the-shelf parts. A separate custom inline analog-to-digital pressure converter was used to validate the real pressure output of the VPS. Results Using commercial physiological software (Spike2, CED), we were able to measure mouse bladder pressure continuously during delivery of unique air stimulus trials in a mouse while simultaneously recording an electromyogram (EMG) of the overlying abdominal muscles. Conclusions This device will be useful for those who need to (1) deliver distinct pressure stimuli while (2) measuring the pressure in real-time and (3) monitoring stimulus on–off using physiological software.

2020 ◽  
pp. 155335062097800
Author(s):  
Ian A. Makey ◽  
Nitin A. Das ◽  
Samuel Jacob ◽  
Magdy M. El-Sayed Ahmed ◽  
Colleen M. Makey ◽  
...  

Background. Retained hemothorax (RH) is a common problem in cardiothoracic and trauma surgery. We aimed to determine the optimum agitation technique to enhance thrombus dissolution and drainage and to apply the technique to a porcine-retained hemothorax. Methods. Three agitation techniques were tested: flush irrigation, ultrasound, and vibration. We used the techniques in a benchtop model with tissue plasminogen activator (tPA) and pig hemothorax with tPA. We used the most promising technique vibration in a pig hemothorax without tPA. Statistics. We used 2-sample t tests for each comparison and Cohen d tests to calculate effect size (ES). Results. In the benchtop model, mean drainages in the agitation group and control group and the ES were flush irrigation, 42%, 28%, and 2.91 ( P = .10); ultrasound, 35%, 27%, and .76 ( P = .30); and vibration, 28%, 19%, and 1.14 ( P = .04). In the pig hemothorax with tPA, mean drainages and the ES of each agitation technique compared with control (58%) were flush irrigation, 80% and 1.14 ( P = .37); ultrasound, 80% and 2.11 ( P = .17); and vibration, 95% and 3.98 ( P = .06). In the pig hemothorax model without tPA, mean drainages of the vibration technique and control group were 50% and 43% (ES = .29; P = .65). Discussion. In vitro studies suggested flush irrigation had the greatest effect, whereas only vibration was significantly different vs the respective controls. In vivo with tPA, vibration showed promising but not statistically significant results. Results of in vivo experiments without tPA were negative. Conclusion. Agitation techniques, in combination with tPA, may enhance drainage of hemothorax.


Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 3567-3567
Author(s):  
Tatiana Ulyanova ◽  
Gregory V. Priestley ◽  
Yi Jiang ◽  
Stephen Padilla ◽  
Thalia Papayannopoulou

Abstract Previous experiments in vitro have emphasized the important role of a5b1 integrin/fibronectin interactions in terminal stages of erythroid differentiation (JCB1987, 105:3105), whereas in vivo experiments with genetically deficient mice (JI2000, 165:4667) and recent in vitro ones emphasized the important contribution of a4b1 integrin in the expansion of fetal erythroid progenitors (JCB2007, 177:871) or for optimal responses post stress in adult animals (MCB2003, 23:9349). However, no abnormalities in erythropoiesis were reported in a model of conditional ablation of b1 integrins post-transplantation (Blood2006, 108:1857). Therefore, it has not been clear to what extent each of the two major b1 integrins (a4b1 and a5b1) alone or in combination is critical for expansion and/or terminal erythroid differentiation of adult cells at homeostasis and/or after stress. We have made detailed and parallel observations comparing erythropoiesis in two genetic models with conditional ablation of b1 or a4 integrins at homeostasis and after phenylhydrazine (PHZ)-mediated stress. Basal erythropoiesis in b1-, a4-deficient and control mice as assessed by hematocrit levels and total nucleated erythroid cells (Ter119+) in BM and spleen was similar. Furthermore, both b1 and a4-deficient mice showed an increase in circulating progenitors (1275±230 CFC/ml PB, 2446±256 CFC/ml PB, respectively) over controls (338±113 CFC/ml PB). However, post PHZ-induced hemolytic stress there was a dramatic difference in outcomes of b1-deficient, but modest differences in a4-deficient mice compared to controls. Survival of b1-deficient mice by day 6 post PHZ was 33% compared to 100% in a4-deficient and control groups. In b1-deficient animals, no significant increase in spleen cellularity (153±26×106 and194±64×106 cells/spleen at day 0 and 6 post PHZ, respectively) was detected and the expansion of total erythroid precursors (CD71hi,Ter119+) in the spleen was minimal (from 2.08×106 to 10.8×106 cells/spleen at day 6). In contrast, in a4-deficient and control mice by the same time spleen cellularity increased respectively by 3 and 8 fold, and erythroid precursors expanded by 400 and 2,500 fold. Of interest, BM response to PHZ was not significantly different among all groups. To test whether the splenic response was cell-autonomous or environmentally controlled we compared PHZ response in wild type recipients reconstituted with b1-ablated (Cre+b1D/D) or with control (Cre-b1f/f) BM cells. Recipients of b1-ablated cells had an impaired response compared to recipients of control cells, which was somewhat intermediate to that seen in non-transplanted b1-deficient animals; by day 6 post PHZ, spleen cellularity was 300±24×106 cells/spleen and erythroid precursors expanded by 130 fold in recipients of b1-ablated BM cells compared to 859±159×106 cells/spleen and 900 fold precursor increase in control recipients. These data suggest that both erythroid and their environmental cells were responsible for the reduced survival and poor spleen response in b1-deficient mice. The target environmental cells (fibroblasts, endothelial cells, macrophages) and/or matrix involved will be the focus of future studies. It is of interest that in contrast to splenic response, the increased release of progenitors from BM seen in animals reconstituted with b1D/D cells was as high as that seen in non-transplanted b1- deficient animals and with the same qualitative characteristics, suggesting this alteration in biodistribution of progenitors is cell autonomous. Taken together, our data suggest that a combined expression of b1 integrins in erythroid and cells in their microenvironment is critical for survival and optimal splenic response to a PHZ-induced stress in adult mice; release of progenitors seen at homeostasis in both b1 and a4 models is cell autonomous with a preferential erythroid progenitor release from BM seen only in b1-deficient but not in a4-deficient mice; in contrast to results with fetal liver cells showing a critical role of a4b1 but not a5b1 integrin for proliferative expansion of erythroid cells, in adults a5b1 expression in erythroid and environmental cells in the spleen assumes a more critical role. Our data expand the current knowledge on the distinct dependency of a4b1 vs a5b1 integrins in basal vs stress erythropoiesis and bridge previously divergent information from in vitro and in vivo experiments.


2019 ◽  
Vol 116 (3) ◽  
pp. 738-743 ◽  
Author(s):  
Raphaël Michel ◽  
Léna Poirier ◽  
Quentin van Poelvoorde ◽  
Josette Legagneux ◽  
Mathieu Manassero ◽  
...  

Attaching hydrogels to soft internal tissues is a key to the development of a number of biomedical devices. Nevertheless, the wet nature of hydrogels and tissues renders this adhesion most difficult to achieve and control. Here, we show that the transport of fluids across hydrogel−tissue interfaces plays a central role in adhesion. Using ex vivo peeling experiments on porcine liver, we characterized the adhesion between model hydrogel membranes and the liver capsule and parenchyma. By varying the contact time, the tissue hydration, and the swelling ratio of the hydrogel membrane, a transition between two peeling regimes is found: a lubricated regime where a liquid layer wets the interface, yielding low adhesion energies (0.1 J/m2 to 1 J/m2), and an adhesive regime with a solid binding between hydrogel and tissues and higher adhesion energies (1 J/m2 to 10 J/m2). We show that this transition corresponds to a draining of the interface inducing a local dehydration of the tissues, which become intrinsically adhesive. A simple model taking into account the microanatomy of tissues captures the transition for both the liver capsule and parenchyma. In vivo experiments demonstrate that this effect still holds on actively hydrated tissues like the liver capsule and show that adhesion can be strongly enhanced when using superabsorbent hydrogel meshes. These results shed light on the design of predictive bioadhesion tests as well as on the development of improved bioadhesive strategies exploiting interfacial fluid transport.


1993 ◽  
Vol 264 (3) ◽  
pp. E328-E333
Author(s):  
R. J. Talmadge ◽  
H. Silverman

The hindlimb muscles of the C57Bl6J dy2J/dy2J (dy2J) mouse suffer from a chronic neural stimulation (pseudomyotonia), resulting in increased contractile activity. In response to the increased contractile activity, these muscles store increased amounts of glycogen. In this study, glucose uptake and glycogenesis (glycogen synthesis from glucose) were analyzed in chronically active and normal muscles. In vivo experiments demonstrate increased 3-O-methylglucose (3-MG) uptake rates and glycogenesis by chronically active dy2J gastrocnemius muscles (Gast) vs. normal control Gast. The chronically active diaphragm muscle (Dia) showed the highest rates of 3-MG uptake, as well as glycogenesis in vivo when compared with other skeletal muscles. No differences were observed between dy2J and control Dia. The levels of blood glucose were similar between dy2J and control animals. In vitro experiments demonstrated an increased sensitivity and responsiveness to insulin for glucose uptake in the dy2J soleus muscle (Sol). Glycogenesis by dy2J Sol was elevated only at the highest insulin concentration tested (10,000 microU/ml). In contrast, the dy2J extensor digitorum longus muscle had an increased sensitivity and responsiveness to insulin for both glucose uptake and glycogenesis. This study demonstrates that chronically active muscles have elevated capacities for glucose uptake and glycogenesis and may help to explain the elevated glycogen levels in the dy2J hindlimb muscles.


2012 ◽  
Vol 92 (2) ◽  
pp. 289-297 ◽  
Author(s):  
Izabella Gomez ◽  
Andrea Szabó ◽  
Lajos Pap ◽  
Lajos Pap ◽  
Krisztina Boda ◽  
...  

Background In addition to systemic treatment, osteoporosis may be treated topically by incorporating calcium and phosphate into the bone. Objective This article describes the use of a recently developed, novel iontophoretic apparatus suitable for local ion delivery into bones. In this study, in vivo experiments were performed to compare the effects of local electrotherapy and those of systemic hormone replacement on bone. Design In this study, local iontophoresis was carried out in ovariectomized and control rats. Bone density, biomechanical, and elemental studies were performed. Methods Forty 12-week-old Sprague-Dawley rats received an ovariectomy (OVX) or were sham-operated (sham). Twenty-one weeks later, tibias of subgroups of sham-operated and OVX animals were subjected to serial local iontophoresis (IOP) treatments, received systemic subcutaneous 17β-estradiol (E2), or were treated with the combination of IOP and E2. Changes in bone density were detected by quantitative ultrasound densitometry and expressed as amplitude-dependent speed of sound (AD-SoS). Biomechanical studies and elemental analysis were performed at the end of the experiments. Results Osteopenia developed 21 weeks after OVX in the proximal tibial regions; the mean difference estimate (95% confidence intervals) of AD-SoS values between the sham-operated and OVX animals was 188.7 (140.4–237.1). Serial iontophoretic treatment resulted in an increase in bone density in both sham-operated and OVX animals (sham+IOP versus sham: 121.4 [73.01–169.7]; OVX+IOP versus OVX: 241.6 [193.2–289.9]). Similar changes in AD-SoS were detected after 17β-estradiol (E2) treatment; however, even greater changes occurred after OVX+E2+IOP versus OVX+E2 (123.4 [75.1–171.8]). Similar improvements also were evident regarding the biomechanical features of the tibias. Limitations A limitation of this study was the relatively small number of rats. Conclusions The efficacy of local IOP using calcium- and phosphate-donating microparticles is comparable to that of estrogen therapy as evidenced by steadily increasing bone density, restoration of the calcium and phosphate balance, and improvement in the biomechanical properties of the bone.


Micromachines ◽  
2018 ◽  
Vol 9 (10) ◽  
pp. 477 ◽  
Author(s):  
Mohit Sharma ◽  
Avery Gardner ◽  
Hunter Strathman ◽  
David Warren ◽  
Jason Silver ◽  
...  

Neural recording systems that interface with implanted microelectrodes are used extensively in experimental neuroscience and neural engineering research. Interface electronics that are needed to amplify, filter, and digitize signals from multichannel electrode arrays are a critical bottleneck to scaling such systems. This paper presents the design and testing of an electronic architecture for intracortical neural recording that drastically reduces the size per channel by rapidly multiplexing many electrodes to a single circuit. The architecture utilizes mixed-signal feedback to cancel electrode offsets, windowed integration sampling to reduce aliased high-frequency noise, and a successive approximation analog-to-digital converter with small capacitance and asynchronous control. Results are presented from a 180 nm CMOS integrated circuit prototype verified using in vivo experiments with a tungsten microwire array implanted in rodent cortex. The integrated circuit prototype achieves <0.004 mm2 area per channel, 7 µW power dissipation per channel, 5.6 µVrms input referred noise, 50 dB common mode rejection ratio, and generates 9-bit samples at 30 kHz per channel by multiplexing at 600 kHz. General considerations are discussed for rapid time domain multiplexing of high-impedance microelectrodes. Overall, this work describes a promising path forward for scaling neural recording systems to numbers of electrodes that are orders of magnitude larger.


2018 ◽  
Vol 1 (2) ◽  
pp. 96-103 ◽  
Author(s):  
John M. McPartland ◽  
Steve G. Naraine

The mechanism by which Cannabis sativa dispersed from its center of origin remains an open question. The literature provides many hypotheses, which we review for the first time, but experiments are few. Darwin was interested in zoochory – the transport of plants by animals. He demonstrated endozoochory (transport of seeds via animal digestive systems) of C. sativa achenes (seeds) by carrier pigeons, but he did not quantify achene survival rates. We assessed mammalian endozoochory in a triplicate experiment: feeding C. sativa achenes into a simulated gastrointestinal system, a dog, and a human. The in vitro system subjected achenes to sequential digestive enzymes. Achenes were planted in potting soil and monitored for emergence under growroom conditions. The in vivo experiments added achenes to a normal morning meal (dog food or granola). Feces were collected for daily instillation into an outdoor garden and monitored for seedling emergence for 16 days. Control achenes were planted directly into soil without ingestion. In the in vitro study, 34.7% of the digested achenes emerged as seedlings. The in vivo emergence rates were 10.3, 1.3, and 76.0% for the dog, human, and control conditions. The three groups differed significantly (χ2 = 1,264.93, p < 0.0001). Achene survival was greatest under in vitro conditions, which lacked a mastication step, compared to dog (minimal chewing) and human (maximal chewing) conditions. Although C. sativa lacks evolutionary traits for classic endozoochory (i.e., a fleshy fruit), it seems well adapted to this manner of seed dispersal.


2021 ◽  
Vol 7 (1) ◽  
Author(s):  
Wei Huang ◽  
Ling Chen ◽  
Kean Zhu ◽  
Donglian Wang

AbstractOvarian cancer (OC), a common gynecological cancer, is characterized by a high malignant potential. MicroRNAs (miRNAs or miRs) have been associated with the chemo- or radiotherapeutic resistance of human malignancies. Herein, the current study set out to explore the regulatory mechanism of miR-181d involved in the cisplatin (DDP) resistance of OC cells. Firstly, in-situ hybridization method was performed to identify miR-181d expression in ovarian tissues of DDP-resistant or DDP-sensitive patients. In addition, miR-181d expression in A2780 cells and A2780/DDP cell lines was determined by RT-qPCR. Gain- and loss-of-function experiments were then performed to characterize the effect of miR-181d on OC cell behaviors. We probed the miR-181d affinity to OGT, as well as the downstream glycosylation of KEAP1 and ubiquitination of NRF2. Further, in vivo experiments were performed to define the role of miR-181d in tumor resistance to DDP. miR-181d was highly expressed in the ovarian tissues of DDP-resistant patients and the A2780/DDP cell line. Ectopic expression of miR-181d augmented DDP resistance in OC cells. In addition, miR-181d was found to target the 3′UTR of OGT mRNA, and negatively regulate the OGT expression. Mechanistic results indicated that OGT repressed NRF2 expression through glycosylation of KEAP1, thereby inhibiting the DDP resistance of OC cells. Furthermore, miR-181d negatively orchestrated the OGT/KEAP1/NRF2 axis to enhance the OC resistance to DDP in vivo. Overall, these findings suggest that miR-181d-mediated OGT inhibition restricts the glycosylation of KEAP1, and then reduces the ubiquitination and degradation of NRF2, leading to DDP resistance of OC. This study provides new insights for prevention and control of OC.


2018 ◽  
Vol 9 (3) ◽  
pp. 435-439
Author(s):  
О. О. Boyko ◽  
O. G. Gavrilina ◽  
P. N. Gavrilin ◽  
Y. A. Gugosyan ◽  
V. V. Brygadyrenko

Formic acid (methanoic acid, HCOOH) is an organic compound which belongs to saturated monobasic acids. In natural conditions, it is secreted from the glands of ants, and also extracted from the leaves of stinging nettles. It is soluble in water in any proportions, which makes it practical to use for making aquatic solutions. It is broadly used as a preservative in the food industry – Е236 food additive (Codex Alimentarius), as a bactericide in medicine and veterinary medicine, and is also used against agricultural pest species of insects and mites. The in vitro and in vivo experiments revealed the anthelmintic properties of the acid against Strongyloides papillosus nematodes, parasites of the gastrointestinal tract of Ruminantia and rabbits. In the conditions of in vitro, 100% of (L1, L2, L3) nematode larvae died from a 1% solution of formic acid (10 g/l) after 24 hours exposure. When exposed to less strong concentrations of the acid (1, 0.1, 0.01, 0.001 g/l), vital forms of L3 S. papillosus were found. Non-invasive stages (L1, L2) are less resistant to the impact of the acid – death of 100% of the larvae was observed under the impact of 0.1% solution and up to 60% of larvae died at 0.01% solution of formic acid in the same conditions. LD50 for L3 invasive larvae of S. papillosus equaled 0.47%, and 0.0076% for L1, L2 non-invasive larvae of S. papillosus. In the conditions of in vivo experiment (with guinea pigs), the effective dose of formic acid was 0.4% ml/kg of the animal`s body weight. The results of the coproscopy after the treatment demonstrated absence of the helminth larvae in the feces of the laboratory animals during 10 days and their occurrence only on days 15–20 with a low intensity (90 larvae/g of feces on average). During an external examination of the corpses of the animals of the experimental group, no pathological changes were found. The intestine, the heart, the lungs and the liver of the animals from this group had no macroscopic changes – they were of natural colour and size. The hepatocytes looked normal and the structure of the liver lobes was maintained. In the tissues of the liver of the animals from the experimental and control groups, we found processes of passive congestion, and an insignificant degree of signs of hepatic steatosis.


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