Low Prevalence of Screen-Detected Colorectal Cancer in an Average-Risk Population: The New Normal.

Prior studies have reported the prevalence of colorectal cancer (CRC) in average-risk screening population ages 50-75 to be 0.7%-1.0%.1,2 However, no estimates from studies enrolling individuals undergoing screening colonoscopy have been reported. The experience of ongoing studies enrolling average-risk individuals is that the prevalence rates are substantially lower. A 2020 study from a community-based cohort undergoing CRC screening with fecal immunochemical testing followed by diagnostic colonoscopy reported a CRC prevalence rate of 1.46 per 1000, or 0.15%.3 The aim of our study is to report the screen-detected prevalence of CRC and advanced neoplasia in average-risk asymptomatic individuals from selected academic and community medical centers in the United States, Canada, and Germany and describe associated risk factors.

A phase I/II pharmacokinetic and pharmacogenomic study of calcitriol in combination with cisplatin and docetaxel in advanced non-small-cell lung cancer.

BACKGROUND: Preclinical studies demonstrated antiproliferative synergy of 1,25-D3 (calcitriol) with cisplatin. The goals of this phase I/II study were to determine the recommended phase II dose (RP2D) of 1,25-D3 with cisplatin and docetaxel and its efficacy in metastatic non-small-cell lung cancer. METHODS: Patients were ≥18 years, PS 0-1 with normal organ function. In the phase I portion, patients received escalating doses of 1,25-D3 intravenously every 21 days prior to docetaxel 75 mg/m(2) and cisplatin 75 mg/m(2) using standard 3 + 3 design, targeting dose-limiting toxicity (DLT) rate <33 %. Dose levels of 1,25-D3 were 30, 45, 60, and 80 mcg/m(2). A two-stage design was employed for phase II portion. We correlated CYP24A1 tagSNPs with clinical outcome and 1,25-D3 pharmacokinetics (PK). RESULTS: 34 patients were enrolled. At 80 mcg/m(2), 2/4 patients had DLTs of grade 4 neutropenia. Hypercalcemia was not observed. The RP2D of 1,25-D3 was 60 mcg/m(2). Among 20 evaluable phase II patients, there were 2 confirmed, 4 unconfirmed partial responses (PR), and 9 stable disease (SD). Median time to progression was 5.8 months (95 % CI 3.4, 6.5), and median overall survival 8.7 months (95 % CI 7.6, 39.4). CYP24A1 SNP rs3787554 (C > T) correlated with disease progression (P = 0.03) and CYP24A1 SNP rs2762939 (C > G) trended toward PR/SD (P = 0.08). There was no association between 1,25-D3 PK and CYP24A1 SNPs. CONCLUSIONS: The RP2D of 1,25-D3 with docetaxel and cisplatin was 60 mcg/m(2) every 21 days. Pre-specified endpoint of 50 % confirmed RR was not met in the phase II study. Functional SNPs in CYP24A1 may inform future studies individualizing 1,25-D3.

Cancer chemoprevention: lessons learned and future directions.

The concept of delaying or preventing epithelial transformation remains a viable and attainable goal for the future. Drug-based strategies for chemoprevention of the future may predominantly rely upon targeted therapies with tolerable but defined toxicities for treatment of individuals diagnosed with intraepithelial neoplasias. Foods, diet manipulation strategies, or nutraceuticals may be more appropriate to delay or prevent carcinogenesis progression in healthy populations with genetic or epidemiologic evidence of risk for future transformation.

Expression of 12-lipoxygenase as a biomarker for melanoma carcinogenesis.

12-Lipoxygenase (12-LOX), through its metabolite 12( )-hydroxyeicosatetraenoic acid [12( )-HETE], has been demonstrated to play a pivotal role in experimental melanoma invasion and metastasis, and 12-LOX expression may be important in early human melanoma carcinogenesis. We have studied the differences in 12-LOX protein expression during the progression of melanoma from human melanocytic cells to benign and dysplastic naevi to malignant metastatic disease. 12-LOX expression was determined in normal human skin melanocytes and in melanocytes found in compound naevi, dysplastic naevi and melanomas using a platelet-type 12-LOX antibody with a diaminobenzidine immunoperoxidase system detection system and was quantified using the analysis software NIH Image 1.62. Mean cellular pixel densities for 12-LOX staining ( = 50 cells/histological type) were unchanged in compound naevi ( = 0.14) and were increased in dysplastic naevi and melanomas compared with normal skin melanocytes ( = 0.03 and = 0.01, respectively). Similarly, melanomas had higher levels of expression compared with dysplastic naevi ( = 0.03). 12-LOX expression was significantly different between compound naevus and dysplastic naevus melanocytes ( = 0.01). These data suggest that 12-LOX may be an important novel marker for cancer progression within the melanoma system, and therefore could be a useful biomarker and therapeutic target for melanoma chemoprevention.

Clinical and economic impact of multiple gated acquisition scan monitoring during anthracycline therapy.

The clinical and economic impacts of monitoring cardiac function in patients given doxorubicin have yet to be determined, especially in relation to patient age, cumulative doxorubicin dose, and the relative efficacies of doxorubicin-based vs alternative regimens. We developed a decision analysis model that includes these factors to estimate the incremental survival benefit and cost-effectiveness of using multiple gated acquisition scans to measure left-ventricular ejection fraction before and during doxorubicin chemotherapy. Probability distributions for the incidences of abnormal left-ventricular ejection fraction findings and congestive heart failure were derived from a retrospective review of 227 consecutive cases at The University of Michigan Medical Center and published findings. Multiple gated acquisition-scan monitoring minimally improved the probability of 5-year survival (<1.5% in the base--case scenario). For patients who received up to 350 mg m(-2) of doxorubicin, multiple gated acquisition-scan screening had an incremental cost of $425 402 per life saved for patients between the ages of 15--39. This incremental cost markedly decreased to $138 191, for patients between the ages of 40--59, and to $86 829 for patients older than 60 years. The small gain in 5-year survival probability secondary to multiple gated acquisition scan monitoring doubled for all age groups when the average cumulative dose for doxorubicin reached 500 mg m(-2). Variations in the cure rate differences between the doxorubicin and alternative regimens had insignificant effects on the improvement in 5-year survival rates from multiple gated acquisition-scan screening. The use of multiple gated acquisition scans for pretreatment screening appears to be more cost-effective for patients who are 40 years or older, when cumulative doxorubicin dose is 350 mg m(-2) or less.

Colonic mucosal prostaglandin E2 and cyclooxygenase expression before and after low aspirin doses in subjects at high risk or at normal risk for colorectal cancer.

UNLABELLED: Development of potential cancer chemopreventive drugs involves the systematic evaluation of these drugs in preliminary Phase I and II studies in human beings to identify the optimal drug dose, drug toxicity, and surrogate end point biomarker modulation. OBJECTIVES: We tested the hypothesis that aspirin, at a single, once-daily 81-mg dose, will reduce colonic mucosal concentration of prostaglandin estradiol (E2) in individuals at high risk for colorectal cancer development similar to our prior observations in a young normal-risk population. METHODS: Aspirin was administered at a dose of 81 mg once daily for 28 days in a cohort of 92 matched high-risk and normal-risk colorectal cancer subjects. Prostaglandin E2 and cyclooxygenase expression were assayed from distal sigmoid biopsies from all of the subjects before and after treatment. RESULTS: The mean prostaglandin E2 for normal-risk subjects before aspirin treatment was 11.3 +/- 1.7 pg/microg (mean +/- SE) tissue protein and after aspirin treatment was 4.9 +/- 0.91 pg/microg tissue protein (P < 0.0001). In high-risk subjects, mean pretreatment prostaglandin E2 was 14.4 +/- 1.7 pg/microg tissue protein and after aspirin treatment was 4.7 +/- 0.70 pg/microg tissue protein (P < 0.0001). Aspirin treatment did not alter cyclooxygenase-1 protein expression. CONCLUSIONS: Aspirin treatment at a dose of 81 mg reduces colorectal mucosal prostaglandin E2 concentration after 28 daily doses. Risk for colorectal carcinoma did not modify colorectal mucosal baseline or post-aspirin prostaglandin E2, or cyclooxygenase expression. Colorectal mucosal prostaglandin concentration may be used as a "drug-effect surrogate biomarker," that is, a surrogate to assess sufficient delivery and tissue effect of a chemopreventive agent.

Prostaglandin inhibitors and the chemoprevention of noncolonic malignancy.

Much has been learned about the role of NSAIDs as cancer preventives through epidemiologic and experimental studies. The pathways of carcinogenesis in the gastrointestinal tract are initiated by many different genetic, environmental, infective, and lifestyle factors. It is possible that the final common pathway of all these malignancies may have some common features. It is conceivable that head and neck, esophageal, gastric, and colorectal epithelial carcinogenesis all are influenced by or require COX-2 up-regulation as a step toward transformation. Intuitively, it is possible that selective COX-2 inhibitors may have a preventive role in all these epithelial malignancies. Today's challenge is to translate this information into clinical trials to define what role, if any, COX inhibition might play in the prevention of these malignancies.

15-LOX-1: a novel molecular target of nonsteroidal anti-inflammatory drug-induced apoptosis in colorectal cancer cells.

BACKGROUND: Nonsteroidal anti-inflammatory drugs (NSAIDs) appear to act via induction of apoptosis-programmed cell death-as potential colorectal cancer chemopreventive agents. NSAIDs can alter the production of different metabolites of polyunsaturated fatty acids (linoleic and arachidonic acids) through effects on lipoxygenases (LOXs) and cyclooxygenases. 15-LOX-1 is the main enzyme for metabolizing colonic linoleic acid to 13-S-hydroxyoctadecadienoic acid (13-S-HODE), which induces apoptosis. In human colorectal cancers, the expression of this enzyme is reduced. NSAIDs can increase 15-LOX enzymatic activity in normal leukocytes, but their effects on 15-LOX in neoplastic cells have been unknown. We tested the hypothesis that NSAIDs induce apoptosis in colorectal cancer cells by increasing the protein expression and enzymatic activity of 15-LOX-1. METHODS: We assessed 15-LOX-1 protein expression and enzymatic activity, 13-S-HODE levels, and 15-LOX-1 inhibition in association with cellular growth inhibition and apoptosis induced by NSAIDs (primarily sulindac and NS-398) in two colorectal cancer cell lines (RKO and HT-29). All P values are two-sided. RESULTS: Sulindac and NS-398 progressively increased 15-LOX-1 protein expression in RKO cells (at 24, 48, and 72 hours) in association with subsequent growth inhibition and apoptosis. Increased 13-S-HODE levels and the formation of 15-hydroxyeicosatetraenoic acid on incubation of the cells with the substrate arachidonic acid confirmed the enzymatic activity of 15-LOX-1. Inhibition of 15-LOX-1 in RKO cells by treatment with caffeic acid blocked NS-398-induced 13-S-HODE production, cellular growth inhibition, and apoptosis (P =. 007, P<.0001, and P<.0001, respectively); growth inhibition and apoptosis were restored by adding exogenous 13-S-HODE (P<.0001 for each) but not its parent compound, linoleic acid (P = 1.0 for each). Similar results occurred with other NSAIDs and in HT-29 cells. CONCLUSIONS: These data identify 15-LOX-1 as a novel molecular target of NSAIDs for inducing apoptosis in colorectal carcinogenesis.

Chemoprevention: general perspective.

Chemoprevention is the use of natural or synthetic compounds to block, reverse, or prevent the development of invasive cancers. Cellular carcinogenesis forms the biologic basis for the identification of chemopreventives, assessment of their activity, and ultimately the success or failure of a chemopreventive. Chemopreventive agents undergo multistep evaluations to assess efficacy that are similar in concept but vastly different in practice to standard ablative oncologic therapeutics. In vitro assessments of potential anticarcinogenesis efficacy include measurements of an agent's antioxidant activity, induction of phase II metabolizing enzymes and effects upon cellular proliferation and apoptotic control pathways. In vivo efficacy is assessed primarily in rodent models of carcinogenesis that are specific for a given organ target. The role of genetically modified animal models in the in vivo assessment of chemoprevention agents remains unclear. Clinical assessment of chemopreventive agent efficacy consists of a multistep process of identification of an optimal chemopreventive agent (phase 1), demonstration of efficacy in humans through the modulation of reversal of a tissue, biochemical, and molecular surrogates for neoplastic transformation and invasion (phase 2) and cancer risk reduction in large cohort trials (phase 3). Opportunities and future needs include the development of reliable, predictive in vivo models of carcinogenesis, careful exploration of the preventive pharmacology of therapeutic agents being used for non-cancer prevention indications, and the incorporation of genetic risk cohorts to define cancer chemopreventive efficacy.

Multiagent chemopreventive agent combinations.

Cancer chemoprevention is a new discipline whose foundation rests upon epidemiologic evidence suggesting that dietary components such as beta-carotene, vitamin E, calcium and selenium may be inhibitors of carcinogenesis. Over the last decade, as molecular and biochemical mechanisms of the carcinogenesis process have been elucidated, the rationale of combining chemopreventive agents to target multiple pathways has strengthened. The process of identifying potential synergistic combinations of chemoprevention agents should be based upon a systematic process of preclinical development in vitro followed by testing in animal models of carcinogenesis. Surrogates of anticarcinogenesis effects might include biochemical, molecular and pathologic assessment of tissue from animal carcinogenesis models. If evidence of chemopreventive effect is found in animal models, systematic studies in humans are indicated. These studies should include a careful Phase I trial to describe optimal chemoprevention doses for all agents being tested in combination followed by Phase II trials to assess efficacy upon carcinogenesis biological and pathological surrogates.

Hepatic enzyme induction with phenobarbital and doxorubicin metabolism and myelotoxicity in the rabbit.

Doxorubicin (DOX) undergoes extensive liver metabolism. This study was designed to compare the pharmacokinetic and myelotoxicity profiles of DOX and metabolites with and without phenobarbital-associated hepatic enzyme induction. DOX was administered i.v. to eight rabbits with and without 7 prior days of oral phenobarbital, with venous blood samples collected between 0 and 72 hr for determination of plasma DOX and metabolite concentrations by high-performance liquid chromatography and complete blood counts obtained on days 1, 5, 7, 8, and 9. DOX AUC infinity, t1/2 beta and CLT values were significantly reduced by phenobarbital induction (PBI), while only the formation clearance of DOX metabolites was significantly changed. PBI had no effect on nadir neutrophil counts but was associated with significantly accelerated neutrophil recovery. Hepatic enzyme induction with phenobarbital significantly reduces plasma DOX exposure while increasing the rate of metabolite formation. These effects result in significant acceleration of neutrophil recovery.

Chemoprevention of epithelial cancers.

Over the past 2 years, new insights into mutator and stromal epithelial cell interactions have enhanced the understanding of the carcinogenesis process and have identified potential new approaches to chemoprevention in diverse epithelial sites. Data testing the efficacy of chemopreventive agents in genetically mutated animal carcinogenesis models as screening tools for chemopreventive agents remain immature and point to a continued need for chemical carcinogenesis models to screen for the potential efficacy of chemopreventive agents. The Breast Cancer Prevention Trial is a published, risk-reduction trial that demonstrated a tamoxifen-induced reduction of the risk for breast cancer and focused attention on the clinical use of chemopreventive agents in healthy women. This trial highlighted the potential chemopreventive activity of selective estrogen-receptor antagonists as chemopreventives for breast cancer. New data from animal and human models continue to support the development of nonsteroidal anti-inflammatory agents as chemopreventives for colorectal cancer. Micronutrient- and diet-intervention trials for colorectal chemoprevention present a mixed picture. Although calcium and vitamin supplements, including folate, reduce the recurrence of adenomatous polyps in humans, the effect is small. Fiber supplementation does not reduce the incidence of polyps or colorectal cancer. New approaches for the chemoprevention of esophageal adenocarcinomas, hepatomas, and squamous cell skin cancers represent promising new approaches to the chemoprevention of epithelial cancers.

Decreased 13-S-hydroxyoctadecadienoic acid levels and 15-lipoxygenase-1 expression in human colon cancers.

13-S-Hydroxyoctadecadienoic acid (13-S-HODE), the product of 15-lipoxygenase (15-LOX) metabolism of linoleic acid, enhances cellular mitogenic responses to certain growth factors. Other observations have questioned whether 13-S-HODE has tumorigenic effects. Our study evaluated the hypothesis that 15-LOX-1 is overexpressed in colon cancers resulting in an increase in intracellular 13-S-HODE. 15-LOX-1 and 13-S-HODE were quantified using western blots, ELISA and immunohistochemistry in 18 human colon cancers with paired normal colonic mucosa. Additionally, 15-LOX-1 expression was measured by western blots in three transformed colonic cell lines and in a human umbilical vein endothelial cell line. Next, we evaluated 13-S-HODE effects on cellular proliferation, cell cycle distribution and apoptosis in a transformed colonic cell line (RKO). Cell cycle distributions were measured by flow cytometry and apoptosis was assessed by phase contrast microscopy, electron microscopy, flow cytometry and DNA fragmentation assay. 15-LOX-1 immunohistochemistry staining scores were reduced in tumor tissues (P

Cancer chemoprevention.

Chemoprevention is defined as nutritional or pharmaceutical interventions designed to prevent or delay cellular transformation. Over the last year, the great excitement and interest in the mechanism, epidemiology, and preclinical and clinical chemopreventive effects in the lower intestine of nonsteroidal anti-inflammatory drugs continues and is reflected in the large number of publications on this topic. Investigators from Japan and the United States published preclinical studies of a number of new compounds derived from citrus products and Asian foods and spices with potential clinical promise. Disappointment in the lack of efficacy of epidemiologically predicted micronutrient chemopreventives continues with the publication of an additional clinical trial. This disappointment is tempered by a potentially important observation suggesting that pharmacologic approaches of measuring an individual's food intake and assessing individual variation in disposition, bioavailability, and metabolism of micronutrients might allow for more accurate and individualized nutritional chemopreventive approaches in the future.

Cancer chemoprevention. A new way to treat cancer before it happens.

Cancer chemoprevention uses noncytotoxic drugs or nutrients to prevent, retard, or delay carcinogenesis. The future of cancer chemoprevention depends on understanding key cellular growth and proliferation-controlling events, developing markers of molecular carcinogenesis, surrogate endpoint biomarkers, and targeted chemopreventive approaches.

Augmentation of hepatic doxorubicin extraction with extracorporeal filtration avoids the dose-dependent, nonlinear increase in AUC observed with systemic administration.

PURPOSE: Regional therapy of primary or metastatic liver cancer with low hepatic extraction ratio drugs such as doxorubicin is constrained by development of systemic toxicity. To examine the effect of augmentation of hepatic drug extraction, a swine model of hepatic artery infusion (HAI) with minimally invasive hepatic venous isolation and hepatic venous drug extraction (HVDE) was developed to study the comparative pharmacokinetic profiles of regional and systemically administered doxorubicin. METHODS: Doxorubicin 0.5-9 mg/kg was administered to 31 pigs over 90 min either by HAI with simultaneous HVDE or by standard systemic vein infusion. Systemic artery and hepatic vein plasma samples were collected periodically (0 to 240 min) for determination of doxorubicin concentrations by high-performance liquid chromatography. Pharmacokinetic profiles were modeled with PCNONLIN 4.2. RESULTS: Concentration-time data were best described in all pigs by a two-compartment open model of elimination. Independent of the route of administration, AUC and Cmax values increased with dose. Mean systemic AUC and Cmax values were consistently lower with regional administration, with statistically significant decreases at the 0.5 and 3 mg/kg doses, whereas there was no relationship between hepatic vein parameters and route of administration. There was a linear relationship between mean systemic AUC values and dose in pigs receiving doxorubicin via HAI with HVDE, whereas mean systemic AUC values increased exponentially at doses of 5 mg/kg or above with systemic vein administration. CONCLUSIONS: Administration of doxorubicin by HAI with simultaneous HVDE significantly decreases systemic exposure in comparison with standard systemic vein drug infusion, and may protect against nonlinear increases in exposure at higher doses.