Clinical and cost effectiveness of a new hepatocellular MRI contrast agent, mangafodipir trisodium, in the preoperative assessment of liver resectability.

BACKGROUND: Improved preoperative assessment of focal liver disease and tumors could have a potentially significant impact on their treatment. Mangafodipir trisodium (Teslascan; Nycomed Amersham Imaging, Little Chalfont, UK) is a new hepatocellular contrast agent for use with state-of-the-art MR imaging that, in early reports, is accurate in detection and characterization of liver lesions. METHODS: Records and diagnostic images of all patients undergoing enhanced Teslascan MRI (T-MRI) at our institution were reviewed. We assessed the relative sensitivities of contrast-enhanced CT scan (CECT) and T-MRI in detecting lesions, as well as the impact of T-MRI in the decision to operate or not on patients. In those patients taken to surgery, the correlation between T-MRI and intraoperative palpation and intraoperative ultrasound (IOUS) was determined. RESULTS: Fifty-four patients were noted on CECT to have focal liver lesions and subsequently underwent imaging with T-MRI. The T-MRI correlated with CT findings in 22 patients (41%), upstaged the liver disease in 26, and demonstrated fewer lesions in 6. Only 43 patients were considered operative candidates and T-MRI influenced the operative decision in 32 patients (74%), dissuading operative intervention in 14. In the 25 patients without clear preoperative evidence of unresectability who were taken to the operating room, T-MRI correlated with findings of intraoperative palpation in 19 (76%). In the 20 patients who underwent IOUS, T-MRI correlated with IOUS in 14 patients (70%). IOUS detected an additional nine lesions, all of which were <1 cm. Seventeen patients underwent resection and/or ablation of their liver lesions. Compared with pathology, sensitivities of CECT, T-MRI, and intraoperative evaluation were 61%, 83%, and 93%, respectively. T-MRI failed to predict hepatic-specific unresectability in only one of eight patients, the other seven having extrahepatic disease. CONCLUSIONS: These findings suggest that T-MRI is more sensitive than CECT in the preoperative predicting of the resectability of hepatic lesions. Despite T-MRI accurately correlating with intraoperative surgical findings, IOUS should be performed on all patients prior to a final decision to resect or ablate a focal liver lesion.

Recurrence of pulmonary mucinous cystic tumor of borderline malignancy.

Cystic mucinous tumors of the lung are recently described neoplasms whose histology is different from most lung adenocarcinomas, and represent a spectrum of malignant potential. Little is known of the behavior of the more malignant subtype. We present a cystic mucinous tumor of borderline malignancy that recurred locally following initial limited resection, and was treated with lobectomy.

Perforated cecal adenocarcinoma presenting as a thigh abscess.

Complicated colorectal carcinoma has several symptoms, the most common being bleeding and obstruction. Occasionally it will cause perforation, which carries a worse prognosis. We report a case of perforated adenocarcinoma of the cecum that presented as an abscess of the thigh. We also present a review of the literature on this subject.

Combined flurbiprofen and cyclosporin-A does not attenuate bone loss and exaggerates renal impairment.

Cyclosporine (CsA) is a potent immunosuppressant that has revolutionized the success of organ transplantation. Flurbiprofen (FB), a propionic acid derivative NSAID, has been demonstrated in vivo to reduce osteoclast numbers in normal rats. The aim of this experiment was to determine whether addition of FB to CsA-treated rats could prevent the bone changes associated with CsA therapy. Forty-eight 10-12-week-old male Sprague-Dawley rats were randomized to receive, daily for 28 days: (1) CsA vehicle p.o. plus FB vehicle sc; (2) CsA (15 mg/kg) p.o. plus FB vehicle sc, (3) CsA vehicle p.o. plus FB (1.5 mg/kg) sc; and (4) CsA (15 mg/kg) p.o. plus FB (1.5 mg/kg) sc. Rats were weighed and venous blood sampled at baseline, 14 days, and 28 days for determination of glucose, Ca+2, BUN, creatinine, PTH, osteocalcin, and 1,25(OH)2 vitamin D. Tibiae were removed following killing, after double labeling for histomorphometry. Body mass was significantly lower than control in all rats receiving CsA on days 14 and 28 while blood glucose was only elevated in the CsA alone group. Day 28 BUN and creatinine were significantly elevated in the CsA group and the combination of CsA and FB revealed an exacerbation of this trend. Vitamin D and osteocalcin were consistently increased in the CsA and CsA/FB groups. Bone histomorphometry showed evidence of trabecular osteopenia in CsA and CsA/FB groups. CsA alone resulted in elevated bone turnover. FB was unable to prevent the trabecular bone loss induced by CsA therapy. This experiment indicates no role for FB as a therapeutic option in CsA-induced bone disease at the given doses and duration of treatment by virtue of its lack of bone sparing ability and adverse renal effects when the two drugs are administered concurrently.

Short-term systemic insulin-like growth factor-1 is unable to prevent cyclosporin A-induced osteopenia in the rat.

Immunosuppression with cyclosporin A (CsA) is effective in a number of immune-mediated diseases and in preventing rejection following organ transplantation. We have repeatedly demonstrated that CsA in the rat model produces accelerated bone remodelling with net bone loss, best characterized in trabecular bone. IGF-I holds promise as a treatment for various osteopenic conditions. Although currently a subject of much controversy, various studies have suggested that in vivo it is anabolic to cortical as well as trabecular bone. The purpose of this study was, in part, to further characterize the effects of CsA and IGF-I on trabecular and cortical bone, and to see whether systemic IGF-I is able to modulate CsA's deleterious skeletal effects. Sixty 10 week-old, male, Sprague-Dawley rats were randomized to receive the following daily for 3 weeks: (1) CsA vehicle (veh) per os (po) + recombinant human (rh) IGF-1 veh subcutaneously (sc); (2) CsA 15 mg/kg po + rhIGF-I-veh; (3) CsA-veh + rhIGF-I 200 microg/kg sc; (4) CsA-veh + rhIGF-I 600 microg/kg sc; (5) CsA 15 mg/kg + rhIGF-I 200 microg/kg, and (6) CsA 15 mg/kg + rhIGF-I 600 microg/kg. Rats were weighed and venous blood was sampled serially for determination of glucose, ionized calcium (Ca2+), PTH, vitamin D, and osteocalcin. Following sacrifice on day 20, histomorphometry was performed on double calcein-labeled tibial metaphysis and diaphysis. All rats receiving CsA had elevated levels of blood glucose and osteocalcin by day 9 and vitamin D at day 20. PTH was similar in all groups, and Ca2+ was only raised in the CsA and CsA + IGF-I 200 microg/kg groups. Rats receiving IGF-I 200 microg/kg and IGF-I 600 microg/kg gained more weight than either vehicle- or CsA-treated animals, attesting to IGF-1's anabolic properties. CsA caused severe trabecular bone loss, not prevented by IGF-I; it even further increased the eroded surface. CsA and IGF-I had little effect on cortical bone volume or marrow area. IGF-I increased endocortical matrix synthesis, as evidenced by the increases in the percent endocortical osteoid perimeter, an effect negated by the addition of CsA. This experiment demonstrates that trabecular bone is more susceptible than cortical bone to the deleterious effects of CsA and indicates little role for IGF-1 in the pathophysiology or treatment of CsA-induced bone disease at the given doses and duration of treatment.

T lymphocytes play a critical role in the development of cyclosporin A-induced osteopenia.

The T lymphocyte suppressor, cyclosporin A, has been shown to cause high turnover osteoporosis. We postulated that cyclosporin A may exert its effects via the T cell rather than direct activity on bone. In this study we administered cyclosporin A (15 mg/kg.day by gavage) to 11 10-week-old Rowett athymic nude rats and to 12 age-matched immunocompetent Sprague-Dawley rats. Placebo was administered to control groups (n = 12 for both). After 28 days of treatment, the Sprague-Dawley rats displayed high turnover bone loss, but the nude rats were largely unaffected by the drug. Sprague-Dawley treated rats had less than half the percent trabecular area of their controls as measured at the secondary spongiosa of the proximal tibial metaphysis (P < 0.001; strain by treatment, P = 0.007). The same pattern was evident for trabecular number, separation, and thickness (strain by treatment, P = 0.034, P = 0.001, and P = 0.021, respectively). Only the Sprague-Dawley rats had an elevated percent eroded perimeter and an elevated bone area referent bone formation rate (strain by treatment, P = 0.002 and P = 0.0003, respectively). Mass, glucose, ionized calcium, PTH, osteocalcin, 1,25-dihydroxyvitamin D, and creatinine all responded similarly to cyclosporin A regardless of strain. T Lymphocytes thus appear to be a prerequisite for the development of cyclosporin A-induced osteopenia.

Bone mineral metabolism in T lymphocyte-deficient and -replete strains of rat.

The immune and skeletal systems are known to interact. We have repeatedly shown that in contrast to in vitro data, the administration of T lymphocyte immunosuppressants, such as cyclosporin A, leads to an increase in bone resorption and a high turnover osteopenia. The purpose of this study was to characterize the bone metabolism of the T lymphocyte deficient Rowett athymic homozygous (rnu/rnu) nude rat. We wished to determine whether these rats share the bone abnormalities of cyclosporin A-treated rats. Eleven 10-week-old Sprague-Dawley rats and 12 similarly aged nude rats were studied over a 4-week period. Metaphyseal cancellous bone histomorphometry was similar in the two groups of rats and only differed with regard to percentage eroded perimeter (lower in nude rats, p = 0.0008) and longitudinal growth rate (49% lower in nude rats, p < 0.001). The nude rats had less body mass (p < 0.001) but nevertheless gained the same percentage of their body weight over the study period. The athymic rats had lower levels of serum, 1,25-dihydroxyvitamin D (p < 0.014) and serum osteocalcin(p < 0.009), and at the age of 14 weeks the nude rats had lower concentrations of serum creatinine (p = 0.001) and blood ionized calcium (p = 0.0002), yet serum PTH was similar throughout. RNA isolated from the contralateral tibias revealed that the nude group had lower steady-state levels of osteocalcin mRNA despite similar rates of bone formation. In its entirety, the data suggest that T cell deficiency per se is not necessarily associated with high turnover osteopenia.

The effect of medroxyprogesterone acetate on bone metabolism in the oophorectomized, tamoxifen-treated rat.

Tamoxifen (TAM) is used primarily in the management of breast cancer, and it also has bone-sparing effects similar to estrogen. In breast cancer patients TAM may have a potential role in the prevention and management of osteoporosis. TAM therapy is associated with uterine hyperplasia, and medroxyprogesterone acetate (MPA) added to the regimen provides protection against this. Due to the potential combined use of MPA and TAM in the clinical setting, this study was conducted to assess whether MPA acted synergistically, dampened, or enhanced the TAM effect on bone. Seventy-five female rats (60 oophorectomized; Ox), were randomized into five groups and received either TAM (0.1 mg/kg.day) and/or MPA (0.3 mg/kg.day) therapy over 28 days as follows: 1) sham; 2) Ox; 3) Ox plus TAM; 4) Ox plus MPA; and 5) Ox plus TAM plus MPA. Blood was sampled on days 0, 14, and 28 for measurement of ionized calcium, PTH, 1,25-dihydroxyvitamin D, osteocalcin, and insulin-like growth factor 1. TAM-treated rats showed a reduction in body weight serum osteocalcin, PTH, and insulin-like growth factor 1. Histomorphometric analysis of the proximal tibia showed less cancellous bone volume in Ox rats, and the effect was attenuated by TAM. MPA alone had no significant effect on cancellous bone volume. All the bone formation parameters evaluated (bone formation rate, mineral apposition rate, percent calcein-labeled surface, and number of osteoblasts) were higher in Ox rats compared with sham-operated rats and were lower in TAM-treated rats compared with Ox rats. These parameters were not changed by MPA, alone or in combination with TAM. The number of osteoclasts was higher in Ox rats compared with sham-operated rats and was reduced by TAM. MPA therapy alone or in combination with TAM did not affect number of osteoclasts. These results suggest that MPA neither dampened nor enhanced the effect of TAM on bone.

A new rapid and reproducible homologous immunoradiometric assay for amino-terminal parathyroid hormone in the rat.

Measurement of parathyroid hormone (PTH) in the rat is most often performed with competitive ligand radioimmunoassays (RIA) utilizing heterologous antibodies. We report here the validation of a newly developed homologous immunoradiometric assay (IRMA) for rat PTH. Two different goat antibodies to the amino-terminal sequence of rat PTH are utilized; one is immobilized onto plastic beads to capture the PTH molecules and the other is radiolabeled for detection. To test this new IRMA, 30 Sprague-Dawley rats were randomized into three treatment groups to receive by intraperitoneal injection: (1) saline 1 ml/kg (control); (2) calcium chloride 40 mg/kg (hypercalcemic); and (3) EDTA 300 mg/kg (hypocalcemic). Blood samples were taken at 0, 30, 60, 180, and 300 minutes after administration of the assigned treatment for measurement of ionized calcium (Ca2+) and serum PTH. Most of the variance in PTH levels was found to be due to changes in Ca2+ (r2 = 0.780, P < 0.0001). There was also a close temporal relationship between the two, with the highest levels of PTH occurring at the same measured time points as the lowest Ca2+, and vice versa. The measured detection limit of the IRMA was 3 pg/ml with intra- and interassay coefficients of variation of 1.74% and 3.07%, respectively. Serial dilutions with pooled rat serum, synthetic rat PTH-(1-34), and synthetic human PTH-(1-34) showed good parallelism with increased specificity for the pooled and synthetic PTH, despite a degree of crossreactivity with hPTH.(ABSTRACT TRUNCATED AT 250 WORDS)

Azathioprine alone is bone sparing and does not alter cyclosporin A-induced osteopenia in the rat.

The immunosuppressant agent cyclosporin A (CsA) induces a high turnover osteopenic state, while the effect on bone of the antimetabolite azathioprine, a drug often used in conjunction with CsA in transplant patients, is less clear. This study was therefore designed to investigate the outcome of azathioprine administration, with reference to CsA, on bone mineral metabolism using the rat model. Four groups of 10-week-old male Sprague-Dawley rats (12 per group) were randomly allocated to receive by daily gavage for a 28-day period: (1) no treatment (control group); (2) azathioprine 1.5 mg/kg bw; (3) CsA 15 mg/kg bw; and (4) a combination of azathioprine and CsA, as described above. Rats were weighed and blood assayed serially for osteocalcin, ionized calcium, 1,25-dihydroxyvitamin D (1,25(OH)2VitD), and parathyroid hormone (PTH). Tibiae were removed following sacrifice on day 28 after double calcein labeling for histomorphometric analysis. Immunosuppressant groups were compared with nontreated control. We confirmed our previous findings that CsA induces a state of high turnover bone loss which is accompanied by a diminished gain in body weight (p < 0.01) and elevated serum osteocalcin (p < 0.001) and 1,25(OH)2VitD levels (p < 0.001). Azathioprine treatment alone did not alter ionized calcium, 1,25(OH)2VitD, or PTH levels. However, there was biochemical evidence of impaired osteoblastic activity as seen by decreased osteocalcin values on days 14 and 28 (p < 0.001). Azathioprine caused no loss of bone volume nor any deviation from the norm in mineral apposition rate, bone formation rate, or longitudinal bone growth. All three treatment groups showed an increased recruitment of osteoclasts to the bone surface.(ABSTRACT TRUNCATED AT 250 WORDS)

Interferon-gamma causes loss of bone volume in vivo and fails to ameliorate cyclosporin A-induced osteopenia.

Interferon-gamma (IFN gamma) in vitro inhibits both bone resorption and bone formation, resulting in a net decrease in bone turnover. In vivo administration of cyclosporin A (CsA) produces accelerated bone remodeling with resultant bone loss. The aim of this study was to investigate whether administration of IFN gamma to rats would favorably modify the high turnover osteopenia caused by CsA. Thirty-six male Sprague-Dawley rats were randomized into 4 equal groups to receive either CsA (15 mg/kg.day) or vehicle by gavage and IFN gamma (10(6) IU/kg.day) or vehicle by ip injection for 8 days. Group 1 received CsA vehicle plus IFN gamma vehicle; group 2 received CsA plus IFN gamma vehicle; group 3 received CsA vehicle plus IFN-gamma; group 4 received CsA plus IFN gamma. Blood was sampled on days 0, 4, and 8 for measurement of ionized calcium (Ca2+), PTH, 1,25-dihydroxyvitamin D, and bone gla protein. Tibiae were removed on day 8 after double tetracycline labeling for histomorphometric analysis. Ca2+ and PTH levels were similar in all groups during the study period. Rats receiving CsA (groups 2 and 4) had elevated levels of 1,25-dihydroxyvitamin D and bone gla protein, whereas rats receiving IFN gamma alone (group 3) had no change in levels of these parameters. Bone histomorphometry revealed that treatment with CsA and/or IFN gamma (groups 2-4) caused an increase in bone resorption surface and a decrease in some parameters of bone formation, resulting in a net loss of bone volume. Thus, IFN gamma failed to influence the osteopenia caused by CsA and on its own had adverse effects on bone in vivo. These results demonstrate that immune-mediating agents have opposing actions in vitro as compared to in vivo.

The deleterious effects of long-term cyclosporine A, cyclosporine G, and FK506 on bone mineral metabolism in vivo.

Administration of cyclosporine A to male and female rats accelerates bone remodeling and causes bone loss, among other side-effects. The newer immunosuppressant drugs, FK506 and CsG, have been synthesized to counteract the toxic effects of CsA, yet maintain clinical efficacy. We investigated the in vivo effects of long-term administration of these drugs on bone mineral metabolism in the rat. Five groups of Sprague-Dawley rats, 15 per group, were allocated to receive by daily gavage for a period of 28 days: (1) Cs-vehicle; (2) CsA 15 mg/kg b.w.; (3) CsG 15 mg/kg b.w.; (4) FK506 vehicle; (5) FK506 5 mg/kg b.w. Blood was sampled on days 0, 14, and 28 for measurement of ionized calcium (Ca2+), parathyroid hormone (PTH), 1,25-(OH)2-vitamin D, and bone gla protein (BGP). Tibiae were removed on day 28 after double calcein labeling for histomorphometric analysis. Immunosuppressant groups were compared with the respective vehicle groups. Neither CsA or CsG affected the levels of Ca2+ or PTH, whereas by day 28 FK506 caused a decrease in Ca2+ and a corresponding rise in PTH (P < 0.05). The 1,25-(OH)2-vitamin D and BGP levels in both the CsA and CsG groups were increased on days 14 and 28 (P < 0.05), while FK506 had no effect on these serum levels. Tibial bone histomorphometry revealed that all 3 immunosuppressants increased measures of bone formation and bone resorption, accompanied by a significant reduction in percent trabecular area, most marked with FK506. This report demonstrates that all three immunosuppressants have adverse effects on bone--most deleterious with FK506.