Long-term cocaine use and its potential effect on bone morphology

Appel, Nicollette Selene

01 November 2017

There is a vast amount of information that the bones can offer and this can be on a macroscopic level, a microscopic level, or both. Understanding the changes in bone morphology can provide an understanding the broader picture of an individual’s life. The natural progression of changes in bone follows the natural progression of life. On the macroscopic level, morphological changes occur to skeletal elements such as the pubic symphysis and the sternal rib ends. These characteristics are used when determining the age of an individual. On the microscopic level, histological methods have been developed to determine the age of an individual based on changes in the microstructure of an element. While age at death estimations are based on a known sequence of change over time, time is not the only variable that effects bone morphology. Different pathologies and trauma can also alter skeletal elements. Just as disease processes and trauma act of signaling pathways in the body that cause changes in bone to occur, drug use also acts on the brain and can affect the same signaling pathways that are involved in bone regulation. It is hypothesized here that chronic cocaine use will have a detectable effect on bone morphology. The study sample used consisted of rats, some exposed to cocaine and others not. The experimental groups consisted of eleven Male Wistar Rats (Rattus norvegicus) from the Laboratory of Behavioral Neuroscience at Boston University in Boston, Massachusetts. The rat’s self-administered cocaine at a 0.3 mg/kg dosage and the concentration of the IV solution was 1.6 mg/ml of cocaine. The control group includes five female Sprague Dawley rats (Rattus norvegicus) from the Boston University Animal Science Center in Boston, Massachusetts. These rats were exposed to a training protocol but were not given any drugs prior. All samples went through a dissection and maceration process to obtain the femora and humeri. Mass, volume, and length measurements were taken for each element to be used for later analysis. One femur was chosen at random from each rodent to be used for histological analysis. Femora were embedded in a 2-part epoxy resin and then cut in half using a diamond band saw. A Buehler IsoMet Low Speed Saw was used to obtain thinner sections and a Buehler MetaServ 250 grinder was used to achieve a thickness of 100-120 μm. India ink was used for staining and all stained sections were put onto slides, covered with Permount and a cover slip, and labeled. Upon microscopic examination, it was determined that the outer circumferential lamellar bone thickness would be measured and compared between the experimental and control groups. Photographs were taken of each cross-section at 1x and 4x magnification through the NIS-element software. The ImageJ image-processing program was used for analysis. The thickness of the outer circumferential lamellar bone and the thickness of the total cross-section was taken at four random locations of each 4x magnification photograph. The ratio of the thicknesses and the outer circumferential lamellar bone thickness alone were compared. When comparing density values calculated from the original mass and volume measurements, a significant difference was found between the control and experimental groups. Samples that had been exposed to cocaine had lower density values than those not exposed to any drugs. The control group mean density equaled 1.492 g/mL and the experimental group mean density equaled 1.082 g/mL. A significant difference was found between the ratio of the thicknesses and between the outer circumferential lamellar bone thickness alone. The experimental group had ratio values significantly higher than the control group. The control groups mean ratio equaled 0.2686 while the experimental groups mean ratio equaled 0.4427. This indicates that in the control group, the outer circumferential lamellar bone thickness, on average, covered about 25% of the total cross-section, and the experimental groups outer circumferential lamellar bone thickness, on average, covered almost 50% of the total cross-section. These results were similar when comparing the outer circumferential lamellar bone thickness alone. The control groups thickness was significantly lower than the experimental groups thickness. The control group’s thickness measurements had a mean of 189.7674 μm and he experimental group’s thickness measurements had a mean of 343.2753 μm. These results are just the preliminary data that shows that chronic cocaine use does have an effect on bone morphology on a microscopic level. Only on histological characteristic was analyzed but there are many more traits that can be analyzed.

Forensic anthropology

Bone morphology

Histology

Substance abuse

Effects of Terrain on Reconstructions of Mobility in Past Populations

Whittey, Erin M

24 March 2017

Femoral and tibial diaphyseal geometry has frequently been used to evaluate mobility and other patterns of physical activity in past populations. The high antero-posterior (A-P) to medio-lateral (M-L) bending rigidity ratio (IX/IY) typical of many hunter-gatherer femora, for instance, may reflect mechanical loads associated with long distance travel. The possible confounding effect of physical terrain on lower limb diaphyseal morphology is rarely evaluated. This study investigated the possible effect of terrain on lower limb shape ratios (IX/IY) and bending and torsional strength (ZP) in adult skeletons from Europe, North America, Africa, and Asia, covering a time span from around 30,000 BP to the present. Midshaft femoral and tibial cross-sectional geometric properties for 3515 individuals were gathered from databases kindly provided by researchers. Geographic coordinates were found for each archaeological site. Local terrain for each site was quantified with ArcGIS 10 mapping software using USGS elevation data, and characterized as flat, hilly, or mountainous. Analysis of variance shows significant differences (pP) of both femoral and tibial midshaft among the three terrain categories, with more A-P oriented diaphyseal shapes and greater strength in hilly and mountainous groups, even after correcting for the effect of subsistence on these cross-sectional properties. These results suggest that terrain needs to be taken into account in analyses of lower limb diaphyseal structure and mobility. Latitude and coastal proximity were also investigated as possible biogeographic factors in the morphology of lower limb diaphyses.

reconstructions of mobility

functional bone morphology

cross-sectional geometric properties

human landscape interaction

GIS

Biological and Physical Anthropology

Étude comparative des coupes transversales des fémurs, tibias et humérus de juvéniles humains, de grands singes africains et d'Au. afarensis : détermination des comportements locomoteurs chez Au. afarensis juvénile.

B. Fortin, Karine

12 1900

La morphologie des os longs est affectée par les charges mécaniques qu'ils subissent, telles celles générées par les comportements locomoteurs. Dans ce mémoire, des images de coupes transversales de fémurs, tibias et humérus obtenues par CT-scan ont été analysées pour déterminer la locomotion de l'enfant de Dikika, un Au. afarensis juvénile, en se basant sur des comparaisons d'humains et de grands singes africains. Les résultats indiquent que le fémur de l'enfant de Dikika montre des signes de bipédie, mais ce n'est pas le cas du tibia. Malgré le fait que la forme de l'humérus est très similaire aux grands singes africains, la résistance de celui-ci aux tensions et torsions laissent supposer que l'enfant de Dikika ne pratiquait pas les locomotions typiques des grands singes comme l'arboricolisme ou encore la quadrupédie terrestre. Malgré tout, certains résultats montrent que la morphologie osseuse dépend aussi des processus ontogéniques et de la génétique de chaque taxon. / The morphology of long bones is affected by the mechanical loads they incur, such as those generated by locomotor behaviors. In this thesis, the images of cross sections of femora, tibiae and humeri obtained by CT-scan were analyzed to determine the locomotion of the Dikika child, a juvenile Au. afarensis, based on comparisons of humans and African apes. The results indicate that the Dikika child's femur shows signs of bipedalism, although the tibia does not. Despite the fact that the shape of the humerus is very similar to that of great African apes, its bending and torsional strength suggest that the Dikika's child did not practice locomotion typical of great apes such as arboricolism or terrestrial quadrupedism. Nevertheless, some results show that bone morphology also depends on the ontogenetic processes and the genetics of each taxon.

morphologie osseuse

mechanical loads

tibias

Ct-scan

fémurs

humérus

charges mécaniques

locomotion

bone morphology

humeri

femurs

Identification of Chiari Malformation Type I Brain Morphology and Biomechanics: A Multi-Faceted Approach to Determine Diagnostic and Treatment Criteria

Eppelheimer, Maggie S.

25 August 2020

No description available.

Biomedical Engineering

Biomedical Research

Medical Imaging

Morphology

Biomechanics

Scientific Imaging

Chiari Malformation type I

neural tissue biomechanics

brain morphology

bone morphology

neural tissue displacement

neural tissue strain

cerebrospinal fluid flow

magnetic resonance imaging

comorbid conditions

posterior fossa decompression surgery