Effect of alendronate on endochondral ossification in mandibular condyles of growing rats

The replacement of the calcified cartilage by bone tissue during the endochondral ossification of the mandibular condyle is dependent of the resorbing activity of osteoclats. After partial resorption, calcified cartilage septa are covered by a primary bone matrix secreted by osteoblasts. Osteoadherin (OSAD) is a small proteoglycan present in bone matrix but absent in cartilage during the endochondral ossification. The aim of this study was to analyze the effect of alendronate, a drug known to inhibit bone resorption by osteoclasts, on the endochondral ossification of the mandibular condyle of young rats, by evaluating the distribution of osteoclasts and the presence of OSAD in the bone matrix deposited. Wistar newborn rats (n=45) received daily injections of alendronate (n=27) or sterile saline solution as control (n=18) from the day of birth until the ages of 4, 14 and 30 days. At the days mentioned, the mandibular condyles were collected and processed for transmission electron microscopy analysis. Specimens were also submitted to tartrate resistant acid phosphatase (TRAP) histochemistry and ultrastructural immunodetection of OSAD. Alendronate treatment did not impede the recruitment and fusion of osteoclasts at the ossification zone during condyle growth, but they presented inactivated phenotype. The trabeculae at the ossification area consisted of cartilage matrix covered by a layer of primary bone matrix that was immunopositive to OSAD at all time points studied. Apparently, alendronate impeded the removal of calcified cartilage and maturation of bone trabeculae in the mandibular ramus, while in controls they occurred normally. These findings highlight for giving attention to the potential side-effects of bisphosphonates administered to young patients once it may represent a risk of disturbing maxillofacial development.     

Fetal development in the normal thick-tailed bushbaby (Galago crassicaudatus panganiensis)

Fetal development was examined at days 60, 75, 90, 105, 120, or 135 of gestation in 19 thick-tailed bushbaby fetuses (Galago crassicaudatus panganiensis) from 17 normal, timed pregnancies. With the exception of day 135, all fetuses were collected by hysterotomy (gestation = 133 ± 2 days). Various weights and measurements were taken. Although fetal sizes varied widely, crown-rump, crown-heel, upper and lower arm and leg lengths, hand and foot lenghts, and fetal organ weights correlated well with fetal age. Key changes in gross brain morphology and skeletal ossification of cranium, pelvis, tarsals, carpals, and epiphyses were noted. Sternabrae ossification proved highly variable, while ossification in the otic capsule and associated ear structures correlated well with age. These data provide a normal base for studies using fetal developmental parameters whether the purpose is to determine gestational age or to design future studies.     

Reproduction, development and growth of Akodon lindberghi (Hershkovitz, 1990) (Rodentia, Muridae, Sigmodontinae) raised in captivity

The reproduction, development and growth of Akodon lindberghi were studied in captivity. The colony was derived from animals captured in Sim?o Pereira, Minas Gerais state, which represents a new area of geographical distribution known for this species. Twelve males and twelve females were crossed, producing 144 young in 53 litters. Post-partum oestrus was observed and gestation length was estimated in 23 days. Litter size ranged from 1 to 4 with a mean of 2.72 (SD = 0.97, n = 53) and modal size of 3. Sexual dimorphism was neither present in body mass at birth nor at weaning. There was a significant negative correlation between litter size and mass at birth or weaning. Permanent emergence of adult external appearance occurred at 15 days. Puberty for males and females was 43 and 42 days, respectively, and the first fecundation event for two females was recorded at 47 and 54 days of age. The weight growth was described by fitting a Gompertz model. No significant difference was found in any parameter of growth curves for males and females. Measurements (head-body, tail, hind foot and internal and external ear lengths) obtained for adult individuals also did not reveal the presence of sexual dimorphism.     

Inhibition of induced endochondral bone development in caffeine-treated rats

We have addressed questions raised by the observation in fetal rats of delayed ossification induced by caffeine at maternal doses above 80 mg/kg body weight per day. The effect of caffeine on endochondral bone development and mineralization has been studied in an experimental model system of bone formation which involves implantation of demineralized bone particles (DBP) in subcutaneous pockets of young growing rats. Caffeine's effects on cellular events associated with endochondral ossification were examined directly by quantitating cellular mRNA levels of chondrocyte and osteoblast growth and differentiation markers in DBP implants from caffeine-treated rats harvested at specific stages of development (day 7 through day 15). Oral caffeine administration to rats implanted with DBP resulted in a dose dependent inhibition of the formation of cartilage tissue in the implants. Histologic examination of the implants revealed a decrease in the number of cells which were transformed to chondrocytes compared to control implants. Those cartilaginous areas that did form, however, proceeded through the normal sequelae of calcified cartilage and bone formation. At the 100 mg/kg dose, cellular levels of mRNA for histone, collagen type II, and TGFβ were all reduced by greater than 40% of control implants consistent with the histological findings. Alkaline phosphatase activity in the implants and mRNA levels for proteins reflecting the hypertrophic chondrocyte and bone phenotype, collagen type I and osteocalcin were markedly decreased compared to controls. Lower doses of 50 and 12.5 mg/kg caffeine also resulted in decreased cellular proliferation and transformation to cartilage histologically and reflected by significant inhibition of type II collagen mRNA levels (day 7). The effects of caffeine on gene expression observed in vivo during the period of bone formation (day 11 to day 15) in the DBP model were similar to the inhibited expression of H4, alkaline phosphatase, osteocalcin, and osteopontin found in fetal rat calvarial derived osteoblast cultures following 24 hour exposure of the cultures to 0.4 mM caffeine. Thus the observed delayed mineralization in the fetal skeleton associated with caffeine appears to be related to an inhibition of endochondral bone formation at the early stages of proliferation of undifferentiated mesenchymal cells to cartilage specific cells as well as at later stages of bone formation.     

Adrenal growth and ontogeny of adrenal substance P, enkephalins and catecholamines in the ovine fetus

Biologically active peptides have been identified in the adrenal glands of several adult mammalian species. Some of these peptides appear to modulate the nicotine-induced catecholamine release from the adrenal medulla. The present study was carried out to investigate the presence and ontogeny of the peptides substance P, met-enkephalin and leu-enkephalin in the ovine fetal adrenal gland from 70 to 140 days gestation (term = 145-150 days). Concurrently, the growth of the fetal adrenal as well as the gestational changes in catecholamine content were determined. The maternal adrenal glands were also studied for comparison. The ovine fetal adrenal gland increased in weight with advancing gestation at a single exponential rate. Total adrenal substance P content correlated with gestational age, while met-enkephalin, leu-enkephalin and total catecholamine contents correlated with adrenal weight. The adrenal content (normalized as per unit protein) of substance P was highest in the young fetuses at 70 days gestation, decreased progressively towards term and, in the adult levels were significantly lower than those measured in the fetuses. The contents of met-enkephalin and leu-enkephalin were low in the young fetuses at 70 days gestation, but reached high levels at 130 to 140 days gestation. Maternal adrenal contents of the two enkephalins were significantly lower than those measured in the near-term fetal adrenal. Total catecholamine content in the fetal adrenal medulla increased as the fetus matured. Norpinephrine was the primary catecholamine present in the medulla of fetuses at 70 and 80 days gestation, while epinephrine was the major one in the adult.(ABSTRACT TRUNCATED AT 250 WORDS)     

Radiographic determination of prenatal basicranial ossification

In a previous investigation on prenatal development of the human cranial base, the sequence in which the bones develop in the midsagittal region was elucidated. The purpose of the present study was to identify fetal ossification on horizontal plane roentgenograms of the occipital and sphenoid bones in the central part of the cranial base, and establish stages in bone appearance related to general fetal developmental parameters. This study is based upon roentgenograms of the cranial base of 145 human fetuses from the first half of the prenatal period. Two different maturation patterns of the sphenoid bone were observed. The first, most common pattern is characterized by a midsagittal centre of ossification and the second by bilateral centres of ossification in the corpus of the sphenoid bone. These bilateral centres might in some cases be connected by a slight bony bridge. It appears that these different maturation patterns are maintained throughout the period investigated. The material was divided into five well-defined developmental stages for both maturation patterns and general parameters of fetal development. Mapping different aspects of ossification in normal cranial development is necessary for understanding deviations of cranial maturation and growth.     

Teratogenicity of zinc deficiency in the rat: study of the fetal skeleton

Zinc deficiency (ZD) is teratogenic in rats, and fetal skeletal defects are prominent. This study identifies fetal skeletal malformations that affect calcified and non-calcified bone tissue as a result of gestational zinc deficiency in rats, and it assesses the effect of maternal ZD in fetal bone calcification. Pregnant Sprague-Dawley rats (180-250 g) were fed 1) a control diet (76.4 micrograms Zn/g diet) ad libitum (group C), 2) a zinc-deficient diet (0 microgram/g) ad libitum (group ZD), or 3) the control diet pair-fed to the ZD rats (group PF). On day 21 of gestation, laparotomies were performed. Fetuses were weighed, examined for external malformations, and stained in toto with a double-staining technique for the study of skeletal malformations. Maternal and fetal tissues were used for Zn, Mg, Ca, and P determinations. Gross external malformations were present in 97% of the ZD fetuses. No external malformations were found in fetuses from groups C and PF. Ninety-one percent of cleared ZD fetuses had multiple skeletal malformations, whereas only 3% of the fetuses of group PF had skeletal defects; no skeletal malformations were found in fetuses from group C. Some of the skeletal malformations described in the ZD fetuses, mainly affecting non-calcified bone, were not mentioned in previous reports, thus stressing the importance of using double-staining techniques. Examination of stained fetuses and counting of ossification centers revealed important calcification defects in ZD fetuses. These effects were confirmed by lower Ca and P concentrations in fetal bone with alteration of the Ca:P ratio.     

Sex-specific differences in rabbit fetal lung maturation in response to epidermal growth factor.

Males and females exhibit different stages of lung development at the same gestation with males lagging behind. We hypothesized that one of the mechanisms responsible for the sex-specific difference in fetal lung maturation is a delay in the onset of epidermal growth factor (EGF) activity in the male fetal lung. EGF influences growth and differentiation during development. We studied the effects of EGF on the incorporation of glycerol into lamellar body disaturated phosphatidylcholine (DSPC) in sex-specific fetal rabbit lung explants prepared at 21 and 24 days gestation (term 31 days). The explants were maintained in Waymouth's media + 10% stripped fetal calf serum with or without EGF (10 ng/ml). The incorporation of [1,3-14C]glycerol into lamellar body DSPC was assessed after 3, 5, or 7 days of culture. Female lung explants prepared at 21 days of gestation had increased incorporation of glycerol into DSPC over time in response to EGF treatment. Male lung explants prepared at 21 days did not respond to EGF treatment. In explants prepared at 24 days gestation, baseline glycerol incorporation into DSPC was higher in female as compared to male fetal lung explants. EGF-responsiveness was also sex-specific in these more mature explants, with the male explants now responding to EGF with a consistent increase in the incorporation of glycerol into lamellar body DSPC. We conclude that one of the mechanisms responsible for the lag in male fetal lung development is a delay in the onset of EGF activity.     

Prenatal dental development in the black howler monkey (Alouatta caraya)

Prenatal dental development was investigated in 19 black howler monkey fetuses that ranged in crown-rump length from 84 mm to 170.5 mm. During this period of fetal development, all of the deciduous teeth and the first permanent molars were found to pass through various stages of crown and root formation. The deciduous incisors, canines, and first molars each calcified from a single calcification center. The second deciduous molars each calcified from two separate calcification centers. And, the third deciduous and first permanent molars each calcified from four separate calcification centers. The morphogenetic events involved in the establishment of the molar crown patterns were found to differ markedly from those of their counterparts among catarrhine primates. In all cases, however, the calcification sequence was found to be directly related to the morphology of the developing crown.     

Larval and metamorphic skeletal development in the fast-developing frog Pyxicephalus adspersus (Anura, Ranidae)

Pyxicephalus adspersus , is exceptional among living frogs. Embryonic development, larval phase, and metamorphosis can be completed in 17 days at a temperature of 29°C. The metamorphosis only takes 5 days. The present study shows that, despite the unusually short larval phase in P. adspersus, the state of skeletal differentiation reached at the end of metamorphosis is similar to that of other frog species. There is no shift of cranial bone formation postmetamorphosis as could have been expected and is known from other species. The majority of compared species are particularly similar in the sequence of bone formation in the postcranial skeleton. However, there are clear differences among species in the timing of these events relative to the larval growth trajectory, absolute time, and certain developmental markers, such as external limb differentiation. For example, skeletogenesis and externally visible limb differentiation are only loosely integrated. Interspecific comparisons show that, in P. adspersus, the early onset of skeletal ossification is an unusual feature among frogs. Freshly metamorphosed froglets of P. adspersus are already distinct from comparable stages of other species in having strong jaws, fang-like teeth, and a squamosal-maxilla contact. The latter stabilizes the maxillary arcade and the suspensorium and might relate to the ability to catch and swallow very large vigorous prey, such as siblings, shortly after metamorphosis. The presence of a complete set of dermatocranial elements and postmetamorphic ossification of only the sphenethmoid and operculum are considered plesiomorphic features, whereas the much less completely ossified skulls of metamorphosed froglets, particularly in Bufo and Hamptophryne, are likely apo- morphic developmental traits within the Anura. Accepted: 11 January 1999     

A histochemical localization on Maclura pomifera lectin during osteogenesis

Summary Mandibular condyles of 4-week-old Wistar strain rats and mandibles of ICR strain mice from 14 days gestation stage to 2 days postnatal stage were used to investigate the localization of Maclura pomifera lectin (MPA) during two modes of osteogenesis. During endochondral ossification of the mandibular condyle, MPA was only localized at the peripheral regions of calcified cartilage after the destruction of chondrocyte lacunae. Bone extracellular matrix (ECM) was not reacted with MPA. In intramembranous ossification of mice mandibles, MPA was stained intensively in the early bone ECM. The intensity of the MPA reaction decreased during bone development. In both cases of osteogenesis, chondroclasts and osteoclasts showed the strong affinity to MPA. These results indicated that the time- and position-specific changes within ECM proceeded during osteogenesis and that MPA was the useful probe to detect chondroclasts and osteoclasts.     

Estimation of gestational and skeletal age in Macaca mulatta.

Results of qualitative and quantitative studies of prenatal skeletal development in Macaca mulatta are presented. Longitudinal radiographic observations were carried out on 20 monkeys of known gestational age, beginning on 120 days of gestation until the neonatal stage of skeletal development. These studies were based on multiple uterotomies on each pregnant female. The technique described provides accurate data on prenatal bone ossification, and permits an accurate estimation of fetal age in pregnant rhesus monkeys with unknown conception dates.     

Fetal growth in the baboon during the second half of pregnancy

The normal growth profile of critical fetal organs through the last third of gestation has not been documented in detail in human fetuses or the fetus of any nonhuman primate species. Recent epidemiological studies in human pregnancy suggest that fetal growth plays a major role in the programming of life-long health by modifying cardiovascular, pancreatic, brain, and liver growth. The present study aimed to produce a detailed database of individual organ growth in the fetal baboon in late gestation. Fetal organ weights were obtained from 43 baboon fetuses between 121 and 177 days of gestation. Various organs (brain, heart, kidney, femur, intestines, and spinal cord) showed no sign of slowed growth in late gestation while growth of others (lung, liver, stomach, and bladder) accelerated in late gestation. The fetal adrenal and thymus showed a decrease in growth rate over the final 20 and 10 days of gestation respectively. These observations provide a database that will permit analysis of factors responsible for regulation of normal and altered fetal organ development in this important experimental species.     

Ossification of the human fetal basicranium

Previous investigations of prenatal development of the human cranium have not identified the sequence of its ossification. The purpose of the present study was to elucidate the pattern of skeletal maturity of the cranial bones in the midsagittal region anterior to the foramen magnum. This study is based upon a radiographic and histochemical investigation of midsagittal tissue blocks of the cranial bases of 73 human fetuses derived from the first half of the prenatal period. A marked regularity in the ossification pattern of the bones in the midsagittal part of the human cranium was observed. Ossification starts in the frontal bone. The sequence in which the next bones ossify is occipital bone, basisphenoid bone, presphenoid bone, and ethmoid bone. The material was divided into 7 maturity stages devised for this analysis. The stages were related to general fetal size (crown-rump length) and to general fetal maturation (composite number of ossified bones in hand and foot). Skeletal development of the median part of the human cranium is not strictly correlated with the size or the stage of general maturation of the fetuses. Knowledge of normal skeletal development is necessary for understanding anomalies of development.     

The extent of fetal ossification as an index of delayed development in teratogenic studies on the rat

In teratogenic studies toxic effects may manifest themselves in retarded fetal development, such as a reduction in fetal weight. In searching for an additional index, the number of centers of ossification in seven skeletal districts (sternum, metacarpus, metatarsus, cervical and caudal vertebrae, anterior and posterior proximal phalanges) of rat fetuses delivered on days 19, 20 and 21 of gestation were counted and compared. Results showed uneven ossification in day-19 and -20 fetuses, but sufficiently advanced, homogeneous and uniform ossification in day-21 fetuses to provide a reliable quantitative index for evaluating retarded fetal development. It is therefore proposed that the stage of skeletal ossification in day-21 fetuses be used in teratogenic studies in the rat to evaluate retarded fetal development.     

Studies on the growth of the fetal guinea pig. Effects of reduction in uterine blood flow on the plasma sulphation-promoting activity and on the concentration of insulin-like growth factors-I and -II

The effects of prenatal growth restriction caused by uterine artery ligation at midgestation has been studied in pregnant guinea pigs. Ligation of a uterine artery at day 30 of pregnancy commonly caused a reduction in fetal growth of greater than 45% by days 40-65 of gestation. This was associated with substantial delays in the development of a number of fetal tissues and in particular that of the skeleton which remained cartilagenous for longer than normal. Hence normally by day 50 of pregnancy clear evidence of epiphyseal ossification in the long bones of the fore- and hindlimbs was present, but in growth retarded fetuses of less than 50% of normal size such evidence was sparce. Delayed skeletal development and the slowing of fetal growth rate correlated well with marked depression of plasma sulphation-promoting activity. Indeed plasma from fetuses that were less than 40% of normal size inhibited sulphate incorporation into pig costal cartilage. This indicated the presence of inhibitory factors in the plasma of such fetuses, an interpretation that was re-inforced by the observation that plasma IGF-II concentrations were 2-4 times above normal. In contrast plasma IGF-I concentration was depressed upto 50% by growth retardation in line with the fall in fetal plasma insulin concentration. The changes in plasma sulphation-promoting activity and of IGF-I are consistent with slowing of DNA, RNA and protein synthesis and of gene expression in tissues of the growth-retarded fetus. The elevated fetal plasma IGF-II concentration provided further evidence that in the fetal guinea pig this hormone has a potentially glyconeogenic action and maintains essential glycogen stores.     

Microradiographic and histological study of the styloid process of the temporal bone

In order to establish the mechanisms underlying the morphogenesis of the so-called 'elongated styloid process', a comparative microradiographic and histological study was performed on 19 long and short processes. Some morphological differences between short and long processes are noticed. Numerous partially calcified cartilaginous islets are observed within the trabecular bone of very long styloid processes or covering their tip. Calcified fibrous tissue or calcified fibrocartilage sometimes contributes to the thickening of enlarged styloid processes. But the growth of the process does not seem to be due either to calcification or to ossification of the stylohyoid ligament, as thought in the past. Mechanical stresses stretching the second branchial arch during the fetal development probably induce a variable involvement of the different parts of Reichert's cartilage in the morphogenesis of the styloid process. The so-called 'elongated styloid process' should thus be congenital. However, a further growth is still possible through the activity of the cartilaginous cap of the tip.     

Alterations in lung basement membrane during fetal growth and type 2 cell development

We studied basement membrane development in the late fetal and in the neonatal rat lung, from the 18th day of gestation (term = 22 days) through the 8th postnatal day, with particular emphasis on the gas-exchange region of the lung. In the periphery of the lung, as type 2 cells differentiate, the continuous basement membrane develops openings beneath these cells. Basal cytoplasmic foot processes extend through these discontinuities into the underlying interstitium, often approaching interstitial cells closely. These discontinuities and extensive foot processes are associated only with type 2 epithelial cells and not with either differentiated airway cells or with the type 1 alveolar lining cells derived from type 2 cells. The type 2 cell basement membrane discontinuities and penetrating foot processes are maximal in the perinatal period and decrease in the week after birth. The appearance of openings in type 2 cell basement membrane and changes in distribution, linear density, and ruthenium red staining of anionic sites suggest that the epithelial basement membrane undergoes continuous remodeling throughout development, particularly in association with type 2 cell differentiation and growth of lung surface area. Epithelial cell foot processes may interact with underlying interstitial cells and affect the coordination of lung surface growth with the development of its connective tissue framework.     

A histochemical localization on Maclura pomifera lectin during osteogenesis

Mandibular condyles of 4-week-old Wistar strain rats and mandibles of ICR strain mice from 14 days gestation stage to 2 days postnatal stage were used to investigate the localization of Maclura pomifera lectin (MPA) during two modes of osteogenesis. During endochondral ossification of the mandibular condyle, MPA was only localized at the peripheral regions of calcified cartilage after the destruction of chondrocyte lacunae. Bone extracellular matrix (ECM) was not reacted with MPA. In intramembranous ossification of mice mandibles, MPA was stained intensively in the early bone ECM. The intensity of the MPA reaction decreased during bone development. In both cases of osteogenesis, chondroclasts and osteoclasts showed the strong affinity to MPA. These results indicated that the time- and position-specific changes within ECM proceeded during osteogenesis and that MPA was the useful probe to detect chondroclasts and osteoclasts.