Intraepithelial inclusions resembling human Biondi bodies in the choroid plexus of an aged chimpanzee

Summary Complex intracellular inclusion bodies of the Biondi type were observed in the choroidal epithelium (choroid plexus of the lateral ventricle) of a 43-year-old male chimpanzee. The specific components of these inclusions are bundles of filaments 8–15 nm in diameter, which are associated with lipid droplets and a wide variety of unidentified inclusions of differing electron density. Biondi bodies are characteristic inclusions of the choroid plexus of aged humans but have been claimed to be absent from the choroidal epithelium of senescent animals including nonhuman primates. The present finding of Biondi body-like inclusions in an aged chimpanzee underscores the usefulness of nonhuman primates as models for studies of aging, seeking to gain a better understanding of gerontological aspects of the human brain.     

Einige Feinstrukturbefunde an den Plexus chorioidei von Affen

Zusammenfassung An der lichtmikroskopischen Struktur des plexus chorioideus ventriculi III von Ateles, Cebus, Macaca und Pan fallen deutliche speziesbedingte Unterschiede auf. Bei Macaca wurde die Ultrastruktur der Plexus chorioidei ventriculi III und IV sowie der Plexus chorioidei der Seitenventrikel verglichen. Kuppenzellen überwiegen im elektronen-mikroskopischen Bild der Plexusepithelien des III. und IV. Ventrikels, während unter den Epithelien der Seitenventrikel flachere Zellen dominieren. Diese strukturellen Besonderheiten könnten auf funktionelle Unterschiede in der Liquorbildung hinweisen. Das Problem der extrachorioidalen Liquorproduktion (Curl and Pollay, 1968; Milhorat u. Mitarb., 1971) wird im Zusammenhang mit den regionalen Unterschieden in der Wandstruktur des Aquaeductus cerebri (Sylvii) diskutiert (Merker, 1970). Im Stroma und im Interstitium aller Plexus chorioidei des Rhesusaffen sind makrophagenartige Wanderzellen zu beobachten, deren Strukturbild dem der Epiplexuszellen gleicht; sie werden als ausgewanderte Monozyten gedeutet. Wahrscheinlich gelangen diese Zellen in den Ventrikel und werden dort zu Epiplexuszellen. Einschlüsse vom Typ der Biondi-Körper wurden in den Plexusepithelien der untersuchten Affen nicht beobachtet; die untersuchten Tiere hatten aber noch kein hohes Lebensalter erreicht.

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The fine structure of the choroid plexuses in monkeys

Summary The light microscopic structure of the choroid plexus of the III^rd ventricle was studied in Ateles, Cebus, Macaca and Pan. These choroid plexuses display distinct species differences. The ultrastructure of the choroid plexuses of the III^rd, IV^th and lateral ventricles was compared in Macaca. Cuboidal cells with dome-like protrusions predominate in the epithelium of the choroid plexuses of the III^rd and the IV^th ventricles, while flattened cells are characteristic of the choroid epithelium of the lateral ventricle. These structural peculiarities may reflect functional differences in the production of the cerebrospinal fluid. The problem of extrachoroidal production of the cerebrospinal fluid (Curl and Pollay, 1968; Milhorat et al., 1971) is discussed in connection with regional differences in the structure of the aqueduct wall (Merker, 1970). Macrophage-like cells which morphologically resemble epiplexus cells and which are very abundant within the connective tissue stroma and also between the epithelial cells of all choroid plexuses of the rhesus monkey, are thought to be monocytes. Probably these cells migrate into the ventricle where they become epiplexus cells. Epithelial inclusions of the type of Biondi bodies were not observed in the simian choroid plexuses. However, the animals investigated were not old.

Mit Unterstützung durch die Deutsche Forschungsgemeinschaft (Arbeitskreis Prof. Dr. A. Oksche).     

Electron-microscopical study of the choroid plexus and epiplexus cells in cats following a cisternal injection of crotoxin complex

The choroid plexus and its associated epiplexus cells in the fourth ventricle in cats were studied with scanning and transmission electron microscopy (SEM, TEM) following a cisternal injection of crotoxin complex (phospholipase A2). In SEM, the epiplexus cells of the control animals were predominantly stellate with long radiating processes. At 2 h after the administration of crotoxin complex, these radiating processes flattened out forming sheet-like membranes covering the ventricular surface of the choroid epithelial cells. The membranous coverings remained extended in 5-hour-survival cats. Numerous blebs of different sizes were observed in areas that were not covered by the cytoplasmic membrane in 5-hour animals. Some of the blebs appeared to have ruptured. In TEM, the microvilli of the choroid epithelial cells in crotoxin complex-treated rats were dilated. The luminal surface of the epithelial cells showed eruption of blebs filled with amorphous materials. Pinocytotic vesicles increased in number in the apical cytoplasm. The lumen of the ventricle often contained portions of cytoplasm believed to be derived from the extrusion of the blebs. These appeared to be engulfed by the overlying epiplexus cells. It was concluded that the injected crotoxin complex stimulated both the secretory as well as pinocytotic activity of the choroid epithelial cells. The phagocytosis of the secretory products from the epithelial cells by epiplexus cells suggests a close functional relationship between the two cell types.     

Entstehung und Ultrastruktur der Biondi-Körper in den Plexus chorioidei des Menschen (Biopsiematerial)

Zusammenfassung Bei 50–60jährigen Menschen enthält das Plexusepithel Einschlüsse (Biondi-Körper), die als Zeichen einer Alterung gelten. Elektronenmikroskopisch bestehen sie aus einer fibrillären Komponente und verschiedenartigen tropfigen (Lipid) oder granulären (u.a. Lipofuszin) Strukturen. Nach Frühstadien solcher Komplexe wurde im Seitenventrikel-plexus (Biopsiematerial) 20–30 Jahre alter Personen gefahndet. In dieser Altersgruppe haben wir nur Lipidtropfen, Lysosomen, stark osmiophile Partikel und Konglomerate dieser Einschlüsse beobachtet; die für ältere Menschen charakteristischen Filamentbündel (Fasern) ließen sich bisher nicht nachweisen. Das Plexusepithel einer 54jährigen Frau war reich an verschiedenen Entwicklungsstadien fibrillärer Biondi-Strukturen. Aus 80–100 Å starken Filamenten bestehende Bündel können frei im Grundplasma der Plexuszelle liegen; ähnliche Filamente trifft man auch innerhalb von großen lysosomenartigen Körpern an. Solchen Fasern bzw. Lysosomenkomplexen lagern sich Lipidtropfen, kleinere elektronendichte Cytosomen und Lipofuszingranula an. Einzelne Filamente sind quergestreift, mit einer Periode von etwa 40–50 Å und globulären Untereinheiten (Durchmesser etwa 25 Å). Nach Färbung mit Kongorot sind die Biondi-Fasern stark doppelbrechend; ein Teil dieses Materials leuchtet grün, andere Faserstrukturen zeigen einen gelben Farbton. Diese Merkmale entsprechen den Strukturcharakteristika von Amyloidfasern. Auf den Amyloidcharakter der Biondi-Einschlüsse haben bereits Divry (1955) und Schwartz (1970) hingewiesen; immunbiologische Aspekte ihrer Entstehung sind zu diskutieren. Einzelne Biondi-Einschlüsse können auch in den Liquor cerebrospinalis austreten. Gebilde, die an die nichtfibrilläre Komponente der Biondi-Körper erinnern, wurden auch im Endothel und in den Pericyten der Plexusgefäße dargestellt.

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Formation and ultrastructure of Biondi bodies in the human choroid plexus (biopsy material)

Summary The choroid epithelium of 50–60-year old persons contains inclusions known as Biondi bodies. These inclusions have been presumed to be signs of aging. Electron microscopic studies have shown that mature Biondi bodies contain filaments, various droplets, and dense granular structures. The vesicular inclusions are identified as lipid droplets; lipofuscin pigment may be associated with lysosomes. In the present studies, in order to analyse the early stages of formation of Biondi bodies, we investigated biopsy material from 20–30-year old persons. In this age group, we observed lipid bodies, lysosomes, osmiophilic particles, and complexes of these structures, but not the filament bundles that were characteristically present in older persons. In a 54-year-old female, the choroid epithelium contained different forms and stages of Biondi fibers. Some groups of filaments of 80–100 Å mean diameter were seen in cytoplasm; others were located in large lysosome-like bodies. Both types of inclusions were associated with lipid droplets, small electron-dense cytosomes and lipofuscin pigment granules. Some filaments showed cross-striation with about 40–50 Å periodicity and globular subunits measuring about 25 Å in diameter. In sections stained with Congo red, the Biondi fibers were strongly birefringent and displayed green or yellow colors. These data are in agreement with the morphological and physical characteristics of human amyloid fibrils and filaments. It has been suggested by Divry (1955) and Schwartz (1970) that Biondi bodies contain amyloid deposits. Immunobiological aspects should therefore be considered in relation to the formation of Biondi bodies. Evidence has been found in our material that single Biondi bodies may be extruded into the cerebrospinal fluid. Further, structures resembling the vesicular and granular components of Biondi bodies were observed in the endothelium and pericytes of the choroid vessels.

Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Diversity in the surface morphology of adjacent epithelial cells of the choroid plexus: an ultrastructural analysis

It is generally known that the luminal surface of the choroidal epithelial cells is covered with a luxuriant coat of slender microvilli and cilia. However, extensive ultrastructural studies on the surface morphology of choroidal epithelial cells are lacking. This study, therefore, is focused on the detailed surface morphology of the choroid plexus of the lateral ventricle of adult Wistar rats using transmission and scanning electron microscopy. The animals were anesthetized, perfused with 0.9% oxygenated saline followed by 3% gluteraldehyde and the choroid plexus was processed for routine electron microscopy. The results of the ultrastructural observations presented in this study show that even the neighboring choroidal epithelial cells may express distinct morphology. In addition to the usually described morphology of choroidal epithelial cells, in this study, the presence of cells with uniform small blebs, crenulated or doughnut shaped structures, large mature blebs, or cells with an extensive network of fibers were observed. Although, dissimilar surface morphology of adjacent choroidal epithelial cells may indicate their distinct functional status, further studies are necessary to understand the physiological relevance of the varied surface morphology of choroidal epithelial cells.     

The surface fine structure of the walls of cerebral ventricles and of choroid plexus in cat

Summary The surface of ependymal cells bordering the brain ventricles, and that of the epithelial cells of choroid plexuses of the cat have been investigated by means of the scanning electron microscope. The ventricle walls are entirely covered with very long and numerous cilia and no regional differences have been observed regarding their number and disposition. Among the ciliated cells dome-shaped structures are present, possibly containing nervous elements. The ependymal cells of the third ventricle floor are mainly non ciliated but the surface thereof shows numerous small microvilli. Numerous round formations are present among these cells, their nature being difficult to interpret. Also present on the floor are small cells of triangular shape with long and tortuous protrusions, tentatively identified as small neurons. The choroid plexuses have a typical sinuous structure of long tortuous villi rich in cavities and convolutions. Details of the epithelial cells covering the plexus and their surface organization are also reported.Part of these results were presented to the Septième Congrès International de Microscopie Electronique, Grenoble 1970.     

Fine structure of the seminal vesicle epithelium of the mouse and golden hamster

The seminal vesicle epithelium of the mouse and golden hamster was examined by light microscopy and by transmission and scanning electron microscopy. By transmission electron microscopy, in the seminal vesicle epithelium of both animals secretory epithelial cells which consisted of mostly light and a few dark cells were observed. The epithelial cells possessed secretory granules which contained a densely stained core. The secretory granules in the mouse epithelium reacted weakly with periodic acid-Schiff (PAS) stain and were slightly stained with alcian blue (AB), and those in the golden hamster exhibited strongly positive reactions with PAS and AB. The nuclei in the mouse tissue were spherical or ovoid, and those in the golden hamster tissue had a few lobes. By scanning electron microscopy, the apical surfaces of most of the epithelial cells were commonly flat or domed, and those of some epithelial cells protruded into the lumen as apocrine-like processes, or possessed small and large orifices. Besides the epithelial cells, there were cells characterized by pseudopodium-like cytoplasmic projections, a few membranous structures, an irregular nucleus, and cytoplasm containing a few dense bodies, in the basal portions of the epithelial cells, or between the basal lamina and the epithelial cells. These cells of the two species were similar in their features.     

Autonomic innervation of the ocular choroid membrane in the chicken

Summary The distribution pattern of adrenergic fibres innervating the ocular choroid membrane of the chicken was studied by means of fluorescence and electron microscopy. In addition, the origin of these fibres was investigated after superior cervical ganglionectomy. Adrenergic axons reach the choroid, partly forming the perivascular plexuses and partly running in the choroid nerves and the choroidal branches of the ciliary nerves. The axon terminals distribute to the smooth muscle cells of the arterial wall and to the extensive system of smooth muscle cells of the intervascular stroma. After unilateral ganglionectomy, fluorescent fibres almost completely disappeared, and degenerative changes could be observed in the terminal varicosities on both smooth muscle cell populations. These findings suggest that the adrenergic axons either originate from neurones within the ipsilateral superior cervical ganglion, or pass through this ganglion. The persistence of normal terminals in short- and long-term ganglionectomised animals shows that the vasal and intervascular muscle cells of the choroid membrane are provided with both an adrenergic and a cholinergic innervation.This work was supported by grant No 80.00442.04 from the Italian National Research Council (CNR)     

A study of the anatomy, histology and ultrastructure of the digestive tract of Orthrias angorae Steindachner, 1897

The anatomy, histology and ultrastructure of the digestive tract of Orthrias angorae (Steindachner, 1897) were investigated using light microscopy, scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The histological structure consists of four layers: mucosa, submucosa, muscularis and serosa. The esophageal mucosa consists of undifferentiated basal epithelial cells, mucous cells and surface epithelial cells. It was observed that the J-shaped stomach had a meshwork of folds in the cardiac region, and longitudinal folds in the fundic and pyloric regions. A single layer of columnar cells, PAS positive only in their apical portions, forms the epithelium. The convoluted tube-shape intestine is lined by simple columnar epithelial cells, which have microvilli at the apical surface. The wall of the esophagus and stomach are thicker than that of the intestine because of the thick muscle layer. There were numerous goblet cells in the intestine. There were numerous gastric glands in the submucosa layer ofthe cardiac stomach, but none were present in the pyloric region of the stomach. There were no pyloric caeca between the stomach and intestine. The enterocytes with microvilli contained rough endoplasmic reticulum, ribosomes and rounded bodies, and the gastric cells contained a well-developed Golgi apparatus.     

Distribution and the fine structure of serotonin-containing fibers in the rat small intestine

Serotonin immunoreactive fibers were observed under the electron microscopy in all layers of the small intestine, with greatest abundance in the mucosa. Submucosal blood vessels were often surrounded by immuno positive nerves. In the inner circular muscle layer the immunoreactive serotonin positive fibers were closely associated with the smooth muscle cells. In the ganglia of the myenteric and submucous plexuses, labelled fibers surrounded the immunonegative neural cell bodies, but rarely formed conventional synaptic junctions. It is concluded that the serotoninergic system of the small intestine may influence the activity of associated structures in a diffuse non-synaptic manner.     

Intrinsic Innervation of the Chicken Lower Digestive Tract

We have studied the different components of the enteric nervous system in the rectum and cloaca of the chicken by means of hystochemical and immunohistochemical techniques. We found cholinergic neuronal bodies as well as nervous fibers, which constitute part of the Meissner and Auerbach plexuses. We also observed plentiful catecholaminergic fibers in both plexuses, though there were no catecholaminergic neuronal bodies. With respect to the Vasoactive Intestinal Peptide (VIP) and substance P (SP) positive peptidergic innervation, only positive fibers were found, which were less abundant than in the other zones of the gastrointestinal tract. The optic microscopy results were confirmed by electron microscopy.     

Complexity and developmental changes in the expression pattern of claudins at the blood–CSF barrier

The choroid plexus epithelium controls the movement of solutes between the blood and the cerebrospinal fluid. It has been considered as a functionally more immature interface during brain development than in adult. The anatomical basis of this barrier is the interepithelial choroidal junction whose tightness has been attributed to the presence of claudins. We used quantitative real-time polymerase chain reaction, Western blot and immunohistochemistry to identify different claudins in the choroid plexuses of developing and adult rats. Claudin-1, -2, and -3 were highly and selectively expressed in the choroid plexus as compared to brain or parenchyma microvessels and were localized at epithelial junctions. Claudin-6, -9, -19, and -22 also displayed a previously undescribed choroidal selectivity, while claudin-4, -5, and -16 were enriched in the cerebral microvessels. The choroidal pattern of tight junction protein expression in prenatal brains was already complex and included occludin and zonula occludens proteins. It differed from the adult pattern in that the pore-forming claudin-2, claudin-9, and claudin-22 increased during development, while claudin-3 and claudin-6 decreased. Claudin-2 and claudin-11 presented a mirror image of abundance between lateral ventricle and fourth ventricle choroid plexuses. Imunohistochemical analysis of human fetal and postnatal brains for claudin-1, -2, and -3 demonstrated their early presence and localization at the apico-lateral border of the choroid plexus epithelial cells. Overall, choroidal epithelial tight junctions are already complex in developing brain. The observed differences in claudin expression between developing and adult choroid plexuses may indicate developmental differences in selective blood–cerebrospinal fluid transport functions.     

Asymmetric localization of Notch2 on the microvillous surface in choroid plexus epithelial cells

Notch family molecules are transmembrane receptors that play various roles in contact-dependent cell–cell interactions in a wide range of organs. In the brain, Notch2, but not the other members of Notch, is expressed in the choroid plexus at an exceptionally high level. We immunohistochemically examined the cellular and subcellular localization of Notch2 protein in the choroid plexus using confocal and electron microscopy. Unexpectedly, Notch2 was asymmetrically localized on the microvillous surface of epithelial cells in the choroid plexus of both postnatal and adult rats. This localization pattern of Notch2 suggests its novel and unknown role independent of contact with adjacent cells in the choroid plexus. In organotypic cultures of the choroid plexus, the addition of anti-Notch2 antibody resulted in deformation of microvilli in epithelial cells, which suggests a role of Notch2 in the maintenance of the microvillous structure in choroid plexus epithelial cells.     

Ultrastructural changes in the mouse fetal choroid plexuses following chronic maternal alcoholization

Female mice (RAP strain) were alcoholized for 30-50 days before mating and during pregnancy until killing, with a 20% solution of ethanol administered instead of drinking water. From foetuses of 16, 18 and 20 days and from newborn puppies (day 1) choroid plexuses were excised and electronmicroscopically examined. Chronic maternal alcoholization induced the lowering of glycogen content in the choroid cells of 16 day old foetuses, the swelling and vacuolization of mitochondria with the disappearance of cristae and enlargement of the Golgi complex--in the choroid cells at all the developmental stages controlled, the enlargement of intercellular spaces within the choroid epithelium and between the capillaries and the epithelial layer. The changes detected are presumedly due to disturbances of intracerebral fluid homeostasis and may be responsible for at least some of the CNS pathology observed in alcohol embryo- and fetopathy.     

Ultrastructure of the choroid plexus epithelium of pigeons treated with drugs: I. Effect of Thyradin, 2,4-dinitrophenol, and cycloheximide

Possible changes in the epithelial cells of the pigeon choroid plexus induced by administration of thyroid powder (Thyradin), 2,4-dinitrophenol, and cycloheximide were studied by scanning and transmission electron microscopy. A marked increase in the number of large bulbous and bleblike protrusions on the apical end of the epithelial cells was observed after oral administration of Thyradin for a month. The endoplasmic content of the protrusions consisted mainly of electron-lucent material. These results provide morphological evidence for the stimulatory effect of Thyradin. Intramuscular injections of 2,4-dinitrophenol for 15 days caused the collapse or deformation of the mitochondria and bleblike or bulbous protrusions. This indicates that changes in the surface configuration of the choroid plexus are controlled by an energy-dependent mechanism. The decrease of protrusions and polyribosomes and increase of the tubular saccules of varying electron density, size, and shape were noted in cells after 15 days of intramuscular cycloheximide injection. The electron density of the protrusions is lower than that of the control pigeons. The results of this study suggest that a curious pleomorphic structure on the apical surface of the choroid epithelial cell of pigeon is closely related to the functional state of choroidal cells. The study also demonstrates that a secondary ultrastructural response due to diverse physiologic effects is reflected in the architecture of the choroid plexus cells.     

Protein secretion by choroid plexus: isolated apical fragments synthesize protein in vitro

Protein synthesis was studied in the isolated rat choroid plexus. When the choroid plexus was studied by transmission electron microscopy, membrane-bound structures were often observed in the ventricular space. These structures appear to bud from the apical surface of the epithelial cells. In the present study, we attempted to isolate these membrane-bound cellular fragments from the choroid plexus and to determine their ability to synthesize proteins. The apical fragments (aposomes) were isolated from the choroid plexus by allowing tissue explants to incubate in media (37 degrees C) for 1 h. The tissue was removed and the media, now containing aposomes, was incubated with [S35]methionine (100 microCi). The media was collected and analysed by SDS-PAGE followed by fluorography. Parallel [S35]methionine incubations were done with whole tissue explants. The SDS-PAGE protein derived from the aposomes was similar to the profile derived from the tissue. In addition, proteins detected in CSF had relative molecular weights comparable to the products synthesized by aposomes. These observations suggest that aposomes provide an additional route of entry for proteins into CSF.     

Silver deposition in the central nervous system and the hematoencephalic barrier studied with the electron microscope

For the purpose of studying the hematoencephalic barrier as it is concerned with silver circulating in the blood stream, silver nitrate was vitally administered to rats in their drinking water over periods of 6 to 8 months. The cerebrum, cerebellum, medulla, area postrema, and choroid plexus were prepared for light and electron microscopy. Silver deposition was found in the perivascular spaces in the choroid plexus, area postrema, in the medulla surrounding the area postrema, and in minute quantities in the cerebrum, cerebellum, and most of the medulla. Two levels of the hematoencephalic barrier were apparently demonstrated in our investigations. The endothelial linings of the vessels in the cerebrum, cerebellum, and medulla constitute the first threshold of the hematoencephalic barrier (specifically here, blood-brain barrier). The cell membranes adjacent to the perivascular spaces form the second threshold, as follows:-the neuroglial cell membranes in the cerebrum, cerebellum, and medulla (blood-brain barrier); the membranes of the neuroglial cells in the area postrema (blood-brain barrier); and the membranes of the epithelial cells of the choroid plexus (blood-cerebrospinal fluid barrier). This study deals with silver deposition and does not infer that the penetration of ionic silver, if present in the blood stream, would necessarily be limited to the regions described. Bleb-like structures were observed to cover the epithelial cell surfaces in the choroid plexus. They may be cellular projections increasing the cell surface area or they may be secretory droplets.     

Uptake of 36Cl and 22Na by the Choroid Plexus-Cerebrospinal Fluid System: Evidence for Active Chloride Transport by the Choroidal Epithelium

Abstract: Cl and Na transport by the lateral ventricle (LVCP) and fourth ventricle (4VCP) choroid plexuses were examined by kinetic analysis of ³⁶Cl and ²²Na uptake into the choroid plexus-CSF system of the adult rat. Both radioisotopes required more than 5 h to reach steady-state distribution in the in vivo choroid plexuses and CSF after intraperitoneal injection. Whereas the LVCP and 4VCP ³⁶Cl steady-state spaces were comparable (55–56%), the 4VCP ²²Na space (39%) tended to be greater than the LVCP ²²Na space (36%). No evidence for inexchangeable Cl or Na was found for the choroid plexuses; the radioisotopic and chemical spaces were not significantly different. Choroid plexus ³⁶Cl and ²²Na uptake curves were resolved into two components, a fast component ( t _1/2 0.02–0.05 h) and a slow component ( t _1/2 0.85–1.93 h). By analysis of the distribution of [³H]inulin, [³H]mannitol, and ⁵¹Cr-tagged erythrocytes within the choroid plexuses, the fast component of ³⁶Cl and ²²Na uptake was found to represent extracellular and erythrocyte contributions to the tissue radioactivity, whereas the slow component represented isotope movement into the epithelial cell compartment. The calculated cell [Cl] of LVCP and 4VCP, 67 mmol/kg cell water, was 3.9 times greater than that predicted by the membrane potential for passive distribution. It is postulated that Cl is actively transported into the choroid epithelial cell across the basolateral membrane; the energy source for active Cl transport may be the Na electrochemical potential gradient (˜90 mV), which is twice that of the Cl electrochemical potential gradient (˜45 mV).     

A Monte Carlo model for the internal dosimetry of choroid plexuses in nuclear medicine procedures

Choroid plexuses are vascular structures located in the brain ventricles, showing specific uptake of some diagnostic and therapeutic radiopharmaceuticals currently under clinical investigation, such as integrin-binding arginine-glycine-aspartic acid (RGD) peptides. No specific geometry for choroid plexuses has been implemented in commercially available software for internal dosimetry.The aims of the present study were to assess the dependence of absorbed dose to the choroid plexuses on the organ geometry implemented in Monte Carlo simulations, and to propose an analytical model for the internal dosimetry of these structures for ¹⁸F, ⁶⁴Cu, ⁶⁷Cu, ⁶⁸Ga, ⁹⁰Y, ¹³¹I and ¹⁷⁷Lu nuclides. A GAMOS Monte Carlo simulation based on direct organ segmentation was taken as the gold standard to validate a second simulation based on a simplified geometrical model of the choroid plexuses. Both simulations were compared with the OLINDA/EXM sphere model.The gold standard and the simplified geometrical model gave similar dosimetry results (dose difference < 3.5%), indicating that the latter can be considered as a satisfactory approximation of the real geometry. In contrast, the sphere model systematically overestimated the absorbed dose compared to both Monte Carlo models (range: 4–50% dose difference), depending on the isotope energy and organ mass. Therefore, the simplified geometric model was adopted to introduce an analytical approach for choroid plexuses dosimetry in the mass range 2–16 g. The proposed model enables the estimation of the choroid plexuses dose by a simple bi-parametric function, once the organ mass and the residence time of the radiopharmaceutical under investigation are provided.