Diana Claassen

Radiobiology of radiosurgery: Part I. The normal rat brain model.

Because limited histological information is available from clinical radiosurgical experience, animal investigations are needed to answer questions regarding the biological response of both normal and pathological tissues. To determine the radiosurgical dose-response relationship of normal brain, we irradiated the right frontal lobe of 18 rats with a single 4-mm isocenter of stereotactic irradiation using the 201-source 60Co gamma unit. Maximal single-fraction doses varied from 30 to 200 Gy (2 rats per dose). All animals were observed for 90 days, killed, and histologically examined. No animal developed neurological dysfunction during that interval, regardless of dose. Animals that received 30, 40, 50, or 60 Gy had no pathological changes. In those given 70 Gy, we found occasional shrunken neurons, and at 80 Gy, rare arteriolar wall thickening. One animal that received 100 Gy had marked capillary endothelial cell degeneration and protein extravasation in the target volume, and the other had a 4-mm diameter necrotic region. Circumscribed cerebral necrosis also was identified in all 4 rats treated with either 150 or 200 Gy; astrocytosis, edema, and microhemorrhage were noted within the surrounding 1 to 2 mm of adjacent brain, and tissue outside that volume had a more normal appearance. We constructed a dose-response relationship based on the cellular, spatial, and temporal effects of focused single-fraction irradiation of the rat brain. To determine the temporal evolution of a known necrotic lesion (200 Gy), 12 other animals were killed (2 each) 1, 7, 14, 21, 30, or 60 days after radiosurgery.(ABSTRACT TRUNCATED AT 250 WORDS)

Radiobiology of Radiosurgery

Because limited histological information is available from clinical radiosurgical experience, animal investigations are needed to answer questions regarding the biological response of both normal and pathological tissues. To determine the radiosurgical dose-response relationship of normal brain, we irradiated the right frontal lobe of 18 rats with a single 4-mm isocenter of stereotactic irradiation using the 201-source 60Co gamma unit. Maximal single-fraction doses varied from 30 to 200 Gy (2 rats per dose). All animals were observed for 90 days, killed, and histologically examined. No animal developed neurological dysfunction during that interval, regardless of dose. Animals that received 30, 40, 50, or 60 Gy had no pathological changes. In those given 70 Gy, we found occasional shrunken neurons, and at 80 Gy, rare arteriolar wall thickening. One animal that received 100 Gy had marked capillary endothelial cell degeneration and protein extravasation in the target volume, and the other had a 4-mm diameter necrotic region. Circumscribed cerebral necrosis also was identified in all 4 rats treated with either 150 or 200 Gy; astrocytosis, edema, and microhemorrhage were noted within the surrounding 1 to 2 mm of adjacent brain, and tissue outside that volume had a more normal appearance. We constructed a dose-response relationship based on the cellular, spatial, and temporal effects of focused single-fraction irradiation of the rat brain. To determine the temporal evolution of a known necrotic lesion (200 Gy), 12 other animals were killed (2 each) 1, 7, 14, 21, 30, or 60 days after radiosurgery.(ABSTRACT TRUNCATED AT 250 WORDS)

Radiobiology of Radiosurgery: Part II. The Rat C6 Glioma Model

We developed an experimental animal model to evaluate the potential role of stereotactic radiosurgery for glial neoplasms. Rats were randomized to control or treatment groups after implantation of C6 glioma cells into the right frontal region; 14 days later, 19 rats underwent stereotactic radiosurgical treatment of the induced tumor, using the 4-mm collimator of the gamma unit. Both groups were observed for up to 65 days after implantation. Treated animals had a mean survival of 39.2 days; the 22 control animals lived a mean of 29.4 days before death from tumor growth (P = 0.07). Six treated animals (32%), but only one control animal, survived the full observation period (P = 0.07). The mean tumor diameter in the control group was 9.64 mm; in the radiosurgery group, it was 6.47 mm (P = 0.001). Compared with tumors in control animals, treated tumors had a hypocellular appearance (P less than 0.001) and demonstrated cellular edema (P less than 0.005) under light microscopy, indicating a direct cytotoxic response to treatment. No difference was identified in the amount of tumor necrosis, intratumor hemorrhage, or degree of brain invasion between the two groups. Variations in the maximum treatment dose (30, 40, 50, 70, or 100 Gy) did not result in observed differences in tumor response. This in vivo rat malignant glioma model is a valuable tool to evaluate the tumoricidal effects of single-fraction, focused irradiation. Additional studies are warranted to evaluate dose-response relationships, radiation sensitizers, and use of radiosurgery with other adjuvant treatments.

A Distinctive Triad of Malformations of the Central Nervous System in the Meckel-Gruber Syndrome

A distinct triad of central nervous system (CNS) malformations (prosencephalic dysgenesis, occipital exencephalocele and rhombic roof dysgenesis) was present in seven cases of the Meckel-Gruber syndrome examined at autopsy. We compared our findings with those previously described. Microcephaly, sloping forehead, posterior occipital exencephalocele, cerebellar hypoplasia, Chiari malformation, hydrocephalus, polymicrogyria, arhinencephaly, holoprosencephaly and anencephaly constituted a broad spectrum of the reported CNS anomalies. Few reports contained a comprehensive description of the observed CNS malformations. In those reports, and in our cases, features of prosencephalic dysgenesis included agenesis of olfactory bulbs and tracts (arhinencephaly), hypoplasia of optic nerves and chiasm, agenesis of corpus callosum, fused thalami or complete holoprosencephaly. The occipital encephalocele has consisted of a displacement of rhombic roof elements, including caudal third ventricle, cerebellar vermis and fourth ventricle, extruded through an enlarged posterior fontanelle rather than through an occipital cranium bifidum and is thus more precisely labeled an exencephalocele. Different degrees of dysgenesis of posterior fossa structures, described by some as a variant of Dandy-Walker cyst with features of a Chiari malformation, were often associated with this occipital exencephalocele. This pattern of CNS anomalies represents a triad of malformations probably associated with defective ventral induction of the developing CNS by the prechordal mesoderm.

Stable xenon enhanced computed tomography in the study of clinical and pathologic correlates of focal ischemia in baboons.

When the lateral striate arteries of baboons are occluded, an immediate cessation of blood flow followed by a transient, minimal restitution of flow occurs in that vascular distribution. These findings are evident from serial xenon/computed tomography cerebral blood flow imaging. In our study, infarction consistently accompanied arterial occlusion for 6 hours or more. The xenon/computed tomography method provides a sensitive, noninvasive technique for examining sequential alterations of cerebral blood flow in small regions deep within the brain. This methodology for recording cerebral blood flow permits correlative studies of cerebral infarction, clinically and experimentally, and allows reasonable inferences about the probabilities of neural tissue damage.

Cerebral radioprotective effects of high-dose pentobarbital evaluated in an animal radiosurgery model.

Because pentobarbital has been shown to reduce cerebral toxicity to single-fraction whole brain irradiation in a rat model, we sought to evaluate its cerebral radioprotective effects for stereotactic radiosurgery. We hypothesized that concurrent high-dose pentobarbital anaesthesia (50 mg kg-1) during irradiation could delay or prevent the onset of radiation necrosis within the radiosurgical volume. Six rats were placed in pentobarbital or control groups, irradiated, and then evaluated at different intervals (60, 100, 150, 365 days; total = 48 animals studied). All rats had 100 Gy radiosurgery to the right frontal brain region (a threshold dose for focal necrosis at 90 days). The radioprotective effects of pentobarbital were compared to ketamine anaesthesia (control) and evaluated for observed focal necrosis, size of necrotic lesion, blood vessel alterations, and to changes in cell nuclei. There was no difference between groups in the numbers of rats with necrosis at 100 days (p = 0.72), at 150 days (p = 0.77), or at 365 days (p = 0.77); no necrosis was observed in either group at 60 days. There was no difference in the size of the necrotic lesion at 100 days (p = 1.0), at 150 days (p = 0.39), or at 365 days (p = 0.07). There was no difference between groups in observed blood vessel changes or nuclear changes at any time interval (p > 0.6). There was no animal morbidity related to radiosurgery.(ABSTRACT TRUNCATED AT 250 WORDS)

Identification of subsets of lymphocytes infiltrating head and neck tumor tissue: A preliminary report

Monoclonal antibodies reactive to distinct subclasses of lymphocytes were used to identify lymphocytes infiltrating tissue obtained from patients with squamous cell carcinoma of the head and neck. The majority of lymphocytes present were T‐cells with very few B‐lymphocytes and natural killer cells present. A variety of patterns of infiltration and relationship of T‐helper to T‐suppressor lymphocytes was noted. Long‐term follow‐up studies will be required to determine the clinical significance of infiltration by different T‐lymphocyte subclasses.

Brain regional analysis of NADH-cytochrome C reductase activity in Alzheimer's disease

The specific activity of antimycin A-insensitive nicotinamide adenine dinucieotide (NADH)-dependent cytochrome C reductase, an enzyme associated with endoplasmic reticulum, was determined in the superior temporal, entorhinal, and cerebellar cortex of 16 patients who died with Alzheimers disease and eight non-demented controls. The specific activity of choline acetyltransferase was also measured to provide an index of presynaptic cholinergic dysfunction. Our results revealed reciprocal changes in these activities that were of similar magnitude across the three regions examined. Furthermore, cytochrome C reductase activity was positively correlated with the density of neurofibrillary tangles, especially in the superior temporal cortex. These results support the hypothesis that Alzheimers disease may be associated with an alteration of endoplasmic reticulum and the functions related to this intracellular membrane system, including the post-translational modification and localization of essential proteins.