Absorption from the peritoneal cavity: Sem study of the mesothelium covering the peritoneal surface of the muscular portion of the diaphragm

The subserous lymphatic plexus on the peritoneal surface of the diaphragm was obliterated to study the removal of protein from the peritoneal cavity in the absence of lymphatic drainage. Cats weighing between 2 and 3 kg were used for this study. Homologous and heterologous serum was injected into the peritoneal cavity of lightly anesthetized animals. In control animals the absorption of 50 ml of homologous serum was complete in 9 hours, and absorption of 50 ml of heterologous serum required 24–36 hours. Cats in which lymphatic peritoneal drainage had been experimentally obstructed showed an increase in time interval for absorption of injection serums. Under this condition 144 hours was required for absorption of heterologous serum and 72 hours for homologous serum.

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COMPUTATIONAL MODEL FOR HEAT TRANSFER COUPLED WITH FLUID FLOW WITHIN PERITONEAL CAVITY

10.46793/iccbi21.271s ◽

2021 ◽

Author(s):

Vladimir Simic ◽

◽

Jessica Domitrovic ◽

Miljan Milosevic ◽

Bogdan Milicevic ◽

...

Keyword(s):

Heat Transfer ◽

Fluid Flow ◽

Computational Model ◽

Surface Area ◽

Peritoneal Cavity ◽

Residual Disease ◽

Abdominal Cavity ◽

Term Survival ◽

Chemotherapy Drugs ◽

Peritoneal Surface

Cytoreductive surgery (CRS) combined with hyperthermic intraperitoneal chemotherapy (HIPEC) has become an essential part of the management of peritoneal carcinomatosis [1,2]. HIPEC is a cancer treatment procedure that involves filling the abdominal cavity with chemotherapy drugs that have been heated (also known as “hot chemotherapy”). HIPEC is performed after the surgical procedure of removing tumors or lesions from the abdominal area. In the past 30 years, the approach of combining CRS with minimal residual disease and intraperitoneal (IP) chemotherapy emerged as one with a potential for long-term survival. Multiple strategies have been employed to measure the functional peritoneal surface area and determine the required perfusion volume. For that purpose, we have developed a novel computational model (consisted from peritoneal cavity with immersed organs, generated from STL files), with precisely calculated functional peritoneal surface area and cavity volume (for each patient). Using finite element procedure, we have managed to model a heat transfer inside the cavity, coupled with fluid flow. Further, we summarized solutions for velocity and temperature field, obtained using our software package PAK accompanied by the visualization in-house CAD software. Aim is to develop a novel protocol to calculate optimal volume of perfusion that could be easily integrated into the preoperative procedure and to help surgeons to deliver a precise dose of chemotherapy to the peritoneum cavity.

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Distribution of diaphragmatic lymphatic lacunae

Journal of Applied Physiology ◽

10.1152/jappl.1992.72.3.1166 ◽

1992 ◽

Vol 72 (3) ◽

pp. 1166-1172 ◽

Cited By ~ 26

Author(s):

D. Negrini ◽

M. Del Fabbro ◽

C. Gonano ◽

S. Mukenge ◽

G. Miserocchi

Keyword(s):

Spontaneous Breathing ◽

Major Axis ◽

Video Camera ◽

Average Density ◽

Video Monitor ◽

Average Width ◽

Peritoneal Surface ◽

Lymphatic Network ◽

Muscular Portion

The morphology of the submesothelial lymphatic lacunae on the pleural and peritoneal surface over the tendinous and muscular portion of the diaphragm was studied in 10 anesthetized rabbits. The lymphatic network was evidenced by injecting 1 ml of colloidal carbon solution in the pleural (n = 5) or the peritoneal (n = 5) space. After 1 h of spontaneous breathing, the animal was killed and the diaphragm was fixed in situ by injection of approximately 5 ml of fixative in pleural and peritoneal spaces. Then both cavities were opened and the diaphragm was excised and pinned to a support. According to which cavity had received the injection, the peritoneal or the pleural side of the diaphragm was scanned by sequential imaging of the whole surface by use of a video camera connected to a stereomicroscope and to a video monitor. The anatomic design appeared as a network of lacunae running either parallel or perpendicular to the major axis of the tendinous or muscular fibers. The lacunae were more densely distributed on the tendinous peritoneal area than on the pleural one. Scanty lacunae were seen on the muscular regions of both diaphragmatic sides, characterized by large areas without lacunae. The average density of lacunae on tendinous and muscular regions was 6 and 1.7/cm2 for the pleural side and 25 and 3.4/cm2 for the peritoneal side, respectively. The average width of lacunae was 137.9 +/- 1.6 and 108.8 +/- 1.7 microns on the tendinous pleural and the peritoneal side, respectively, and 163 +/- 1.8 microns on the muscular portion of the pleural and peritoneal surfaces.

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Computer simulations of osmotic ultrafiltration and small-solute transport in peritoneal dialysis: a spatially distributed approach

AJP Renal Physiology ◽

10.1152/ajprenal.00301.2011 ◽

2012 ◽

Vol 302 (10) ◽

pp. F1331-F1341 ◽

Cited By ~ 23

Author(s):

Joanna Stachowska-Pietka ◽

Jacek Waniewski ◽

Michael F. Flessner ◽

Bengt Lindholm

Keyword(s):

Peritoneal Dialysis ◽

Computer Simulations ◽

Peritoneal Cavity ◽

Sodium Concentration ◽

Solute Concentration ◽

Distributed Model ◽

Peritoneal Surface ◽

Distributed Approach ◽

Peritoneal Tissue ◽

Spatially Distributed

The aim of this study was to simulate clinically observed intraperitoneal kinetics of dialysis fluid volume and solute concentrations during peritoneal dialysis. We were also interested in analyzing relationships between processes in the peritoneal cavity and processes occurring in the peritoneal tissue and microcirculation. A spatially distributed model was formulated for the combined description of volume and solute mass balances in the peritoneal cavity and flows across the interstitium and the capillary wall. Tissue local parameters were assumed dependent on the interstitial hydration and vasodilatation induced by glucose. The model was fitted to the average volume and solute concentration profiles from dwell studies in 40 clinically stable patients on chronic ambulatory peritoneal dialysis using a 3.86% glucose dialysis solution. The model was able to describe the clinical data with high accuracy. An increase in the local interstitial pressure and tissue hydration within the distance of 2.5 mm from the peritoneal surface of the tissue was observed. The penetration of glucose into the tissue and removal of urea, creatinine, and sodium from the tissue were restricted to a layer located within 2 mm from the peritoneal surface. The initial decline of sodium concentration (sodium dip) was observed not only in intraperitoneal fluid but also in the tissue. The distributed model can provide a precise description of the relationship between changes in the peritoneal tissue and intraperitoneal dialysate volume and solute concentration kinetics. Computer simulations suggest that only a thin layer of the tissue within 2–3 mm from the peritoneal surface participates in the exchange of fluid and small solutes between the intraperitoneal dialysate and blood.

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Role of the liver in small-solute transport during peritoneal dialysis.

Journal of the American Society of Nephrology ◽

10.1681/asn.v51116 ◽

1994 ◽

Vol 5 (1) ◽

pp. 116-120

Author(s):

M F Flessner ◽

R L Dedrick

Keyword(s):

Mass Transfer ◽

Peritoneal Dialysis ◽

Surface Area ◽

Peritoneal Cavity ◽

Distributed Model ◽

Blood Capillaries ◽

Peritoneal Surface ◽

Small Solute ◽

Good Agreement

Peritoneal dialysis (PD) is dependent on the transport of water and solutes from the blood capillaries within the tissues that surround the peritoneal cavity. Because of their large blood supply and surface area, the viscera have been considered the most important tissues for PD transport. In animals, however, removal of the gastrointestinal tract decreases PD small-solute mass transfer by only 10 to 27%. To investigate the theoretical basis for these observations, a distributed model of peritoneal transport was extended to take into account the transport characteristics of four tissue groups that surround the cavity: the liver, the hollow viscera, the abdominal wall, and the diaphragm. The mass transfer-area coefficient (MTAC) of sucrose for each tissue was calculated from the following: MTAC = ([D(pa)]0.5)A, where D is the effective solute interstitial diffusivity, pa is the solute transcapillary permeability-area per unit tissue volume, and A is the apparent peritoneal surface area of the tissue. Our results for the adult human predict that the MTAC for the liver is comparable to that of all of the other viscera and makes up 43% of the total MTAC for the peritoneal cavity. The predicted MTAC is 4 cm3/min (plasma) or 6 cm3/min (blood), in good agreement with published values. It is concluded that the liver is responsible for a major portion of the small-solute MTAC. This also explains the earlier observations in eviscerated animals whose PD transport was likely preserved by intact livers.

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Peritoneal absorption of macromolecules studied by quantitative autoradiography

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.1985.248.1.h26 ◽

1985 ◽

Vol 248 (1) ◽

pp. H26-H32 ◽

Cited By ~ 5

Author(s):

M. F. Flessner ◽

J. D. Fenstermacher ◽

R. G. Blasberg ◽

R. L. Dedrick

Keyword(s):

Peritoneal Cavity ◽

Anterior Abdominal Wall ◽

Large Fraction ◽

Female Rats ◽

Lymphatic Transport ◽

Rapid Freezing ◽

Uterine Tissue ◽

Tissue Concentrations ◽

Peritoneal Surface ◽

Constant Versus

Transport experiments of 125I-human serum albumin from the peritoneal cavity to the plasma were conducted in 200-g female rats. Blood and peritoneal samples were collected at intervals over 2-3 h. After death and rapid freezing of the animal, transverse sections were cut in a cryomicrotome from several tissues surrounding the peritoneal cavity, and the distribution of the labeled albumin was measured by computerized quantitative macroautoradiography. Tissue concentrations (counts/min per wet tissue wt) in parietal tissues (anterior abdominal wall and the diaphragm) were relatively constant versus distance from the peritoneum and represented a large fraction (0.5-1.0) of the concentration in the peritoneal cavity. Fractional concentrations in visceral tissues (liver, stomach, intestine) decreased from 0.20-0.35 at the peritoneal surface to 0.03-0.06 at a distance of 900 micron from the peritoneum. Uterine tissue concentrations lay between those of the parietal tissues and those of the viscera. The data are related to mechanisms of interstitial and lymphatic transport in these tissues.

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Effect of Contraceptive Steroids on the Endometrium of Guinea Pig: SEM study

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100080766 ◽

1977 ◽

Vol 35 ◽

pp. 668-669

Author(s):

Mai M. Said ◽

Ramesh K. Nayak ◽

Randall E. McCoy

Keyword(s):

Guinea Pig ◽

Reproductive Tract ◽

Three Dimensional ◽

Female Reproductive Tract ◽

Human Female ◽

Surface Ultrastructure ◽

Transmission Electron ◽

Sem Study ◽

Uterine Mucosa ◽

Group 1

Burgos and Wislocki described changes in the mucosa of the guinea pig uterus, cervix and vagina during the estrous cycle investigated by transmission electron microscopy. More recently, Moghissi and Reame reported the effects of progestational agents on the human female reproductive tract. They found drooping and shortening of cilia in norgestrel and norethindrone- treated endometria. To the best of our knowledge, no studies concerning the effects of mestranol and norethindrone given concurrently on the three-dimensional surface features on the uterine mucosa of the guinea pig have been reported. The purpose of this study was to determine the effect of mestranol and norethindrone on surface ultrastructure of guinea pig uterus by SEM.Seventy eight animals were used in this study. They were allocated into two groups. Group 1 (20 animals) was injected intramuscularly 0.1 ml vegetable oil and served as controls.

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Glycogen in guinea pig neutrophils: Ultrastructural study of neutrophils at the intradermal site of BCG injection

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100077207 ◽

1983 ◽

Vol 41 ◽

pp. 726-727

Author(s):

Corazon D. Bucana

Keyword(s):

Bone Marrow ◽

Guinea Pig ◽

Electron Density ◽

Peritoneal Cavity ◽

Ultrastructural Study ◽

Guinea Pigs ◽

Random Distribution ◽

Glycogen Content ◽

Polymorphonuclear Neutrophils ◽

Ultrastructural Studies

In the circulating blood of man and guinea pigs, glycogen occurs primarily in polymorphonuclear neutrophils and platelets. The amount of glycogen in neutrophils increases with time after the cells leave the bone marrow, and the distribution of glycogen in neutrophils changes from an apparently random distribution to large clumps when these cells move out of the circulation to the site of inflammation in the peritoneal cavity. The objective of this study was to further investigate changes in glycogen content and distribution in neutrophils. I chose an intradermal site because it allows study of neutrophils at various stages of extravasation.Initially, osmium ferrocyanide and osmium ferricyanide were used to fix glycogen in the neutrophils for ultrastructural studies. My findings confirmed previous reports that showed that glycogen is well preserved by both these fixatives and that osmium ferricyanide protects glycogen from solubilization by uranyl acetate.I found that osmium ferrocyanide similarly protected glycogen. My studies showed, however, that the electron density of mitochondria and other cytoplasmic organelles was lower in samples fixed with osmium ferrocyanide than in samples fixed with osmium ferricyanide.

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An Established Epithelial Cell Line (NPC/HK1) from a Nasopharyngeal Carcinoma - II. A Sem Study

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100053784 ◽

1982 ◽

Vol 40 ◽

pp. 224-225

Author(s):

Li C.L. ◽

Chew E.C. ◽

Huang D.P. ◽

Ho H.C. ◽

Mak L.S. ◽

...

Keyword(s):

Nasopharyngeal Carcinoma ◽

Epithelial Cell ◽

Surface Morphology ◽

Cell Line ◽

Epithelial Cell Line ◽

Present Communication ◽

Cells In Culture ◽

Sem Study ◽

Well Differentiated

An epithelial cell line, NPC/HK1, has recently been successfully established from a nasopharyngeal carcinoma of the moderately to well differentiated squamous type. The present communication reports on the surface morphology of the NPC/HK1 cells in culture.

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SEM Study of Tension Wood Fiber Morphology and its Effect on Paper Properties

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100079061 ◽

1977 ◽

Vol 35 ◽

pp. 308-309

Author(s):

K. W. Robinson

Keyword(s):

Tension Wood ◽

Wood Fiber ◽

Strength Properties ◽

Fiber Morphology ◽

Paper Properties ◽

Pure Cellulose ◽

Short Rotation ◽

Hardwood Trees ◽

Sem Study

Tension wood (TW) is an abnormal tissue of hardwood trees; although it has been isolated from most parts of the tree, it is frequently found on the upper side of branches and leaning stems. TW has been classically associated with geotropic alignment, but more recently it has been associated with fast growth. Paper made from TW is generally lower in strength properties. Consequently, the paper industries' growing dependence on fast growing, short- rotation trees will result in higher amounts of TW in the final product and a corresponding reduction in strength.Relatively few studies have dealt with the role of TW in the structure of paper. It was suggested that the lower strength properties of TW were due to a combination of factors, namely, its unique morphology, compression failures in the cell wall, and lower hemicellulose content. Central to the unique morphology of the TW fiber is the thick gelatinous layer (G-layer) composed almost entirely of pure cellulose.

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