Electronic Medical Record Reporting Enhances Proactive Psychiatric Consultation.

BACKGROUND: Numerous studies have demonstrated that psychiatric and substance use issues in general hospital inpatients result in increased length of stay and associated costs. Additional studies have demonstrated that proactive consultation models in psychiatry can effectively address these problems. Selecting patients for proactive interventions is less well studied. OBJECTIVE: We sought to develop an automated, electronic medical record-based screening tool to select patients who might benefit from proactive psychiatric consultation. METHODS: An automated daily report was developed using information stored in electronic medical record and billing systems. Discrete data fields populating the report included diagnoses, orders, and nursing care plans. RESULTS: Over a 9-month period, the report identified 2177 patients (19% of the total nonpsychiatric adult admissions) as potentially benefitting from proactive psychiatric interventions. Of these, 367 were confirmed as likely to benefit from intervention; 139 (38%) were randomized to the proactive psychiatric consultation group. Of those patients randomized to "treatment as usual," a subset later required psychiatric consultation, which was requested an average of 4 days after the time they were flagged by the report. CONCLUSIONS: The use of an electronic medical record-based automated report is feasible to select patients for proactive psychiatric interventions on admission and throughout the hospital stay. Early identification of patients may decrease length of stay and improve patient outcomes.

AEG-1 promoter-mediated imaging of prostate cancer.

We describe a new imaging method for detecting prostate cancer, whether localized or disseminated and metastatic to soft tissues and bone. The method relies on the use of imaging reporter genes under the control of the promoter of AEG-1 (MTDH), which is selectively active only in malignant cells. Through a systemic, nanoparticle-based delivery of the imaging construct, lesions can be identified through bioluminescence imaging and single-photon emission computed tomography in the PC3-ML murine model of prostate cancer at high sensitivity. This approach is applicable for the detection of prostate cancer metastases, including bone lesions for which there is no current reliable agent for noninvasive clinical imaging. Furthermore, the approach compares favorably with accepted and emerging clinical standards, including PET with [(18)F]fluorodeoxyglucose and [(18)F]sodium fluoride. Our results offer a preclinical proof of concept that rationalizes clinical evaluation in patients with advanced prostate cancer.

[32P]ATP inhibits the growth of xenografted tumors in nude mice.

The search for new therapeutic agents that are effective against cancer has been difficult and expensive. The activity of anticancer candidate agents against human cancer-derived cell lines in immunocompromised mice is an important tool in this search. Because ATP is a naturally occurring small molecule, its radiolabeled form poses many advantages as a potential anticancer therapeutic agent. We previously found that a single, low-dose intravenous injection of [ ( 32) P]ATP inhibited the growth of xenografted tumors in nude mice for up to several weeks. The current study describes the biodistribution and the results and advantages of multi-dose administration of this potential drug. Future studies should investigate the mechanism involved in the possible use of [ ( 32) P]ATP as a cytotoxic agent that homes naturally to the tumor microenvironment.

Strong inhibition of xenografted tumor growth by low-level doses of [(32)P]ATP.

The ability of a potential human anti-cancer therapeutic agent to inhibit the growth of xenografted tumors in nude mice has been an established and accepted testing method for several decades. The current report shows that a single, low-level intravenous dose of [(32)P]ATP significantly inhibits the growth of established xenografted tumors in nude mice. This inhibitory effect becomes appreciable very rapidly, within only five days post-injection and the low dose demonstrates little or no toxicity in the mice. Surprisingly, a narrow dose window of optimum effectiveness is seen, whereby either decreasing or increasing the [(32)P]ATP dose results in far less growth inhibition. Thus, the intravenous systemic injection of [(32)P]ATP may represent a simple, potent method to target and inhibit primary human tumors and malignant lesions.

68Ga-labeled inhibitors of prostate-specific membrane antigen (PSMA) for imaging prostate cancer.

Gallium-68 is a generator-produced radionuclide for positron emission tomography (PET) that is being increasingly used for radiolabeling of tumor-targeting peptides. Compounds [(68)Ga]3 and [(68)Ga]6 are high-affinity urea-based inhibitors of the prostate-specific membrane antigen (PSMA) that were synthesized in decay-uncorrected yields ranging from 60% to 70% and radiochemical purities of more than 99%. Compound [(68)Ga]3 demonstrated 3.78 +/- 0.90% injected dose per gram of tissue (%ID/g) within PSMA+ PIP tumor at 30 min postinjection, while [(68)Ga]6 showed a 2 h PSMA+ PIP tumor uptake value of 3.29 +/- 0.77 %ID/g. Target (PSMA+ PIP) to nontarget (PSMA- flu) ratios were 4.6 and 18.3, respectively, at those time points. Both compounds delineated tumor clearly by small animal PET. The urea series of imaging agents for PSMA can be radiolabeled with (68)Ga, a cyclotron-free isotope useful for clinical PET studies, with maintenance of target specificity.

Molecular imaging of CXCR4 receptor expression in human cancer xenografts with [64Cu]AMD3100 positron emission tomography.

The chemokine receptor CXCR4 and its cognate ligand CXCL12 are pivotal for establishing metastases from many tumor types. Thus, CXCR4 may offer a cell surface target for molecular imaging of metastases, assisting diagnosis, staging, and therapeutic monitoring. Furthermore, noninvasive detection of CXCR4 status of a primary tumor may provide an index of the metastatic potential of the lesion. Here, we report the development and evaluation of [(64)Cu]AMD3100, a positron-emitting analogue of the stem cell mobilizing agent plerixafor to image CXCR4 in human tumor xenografts preselected for graded expression of this receptor. This imaging method was evaluated in lung metastases derived from human MDA-MB-231 breast cancer cells. Ex vivo biodistribution studies, performed to validate the in vivo imaging data, confirmed the ability of [(64)Cu]AMD3100 to image CXCR4 expression. Our findings show the feasibility of imaging CXCR4 by positron emission tomography using a clinically approved agent as a molecular scaffold.

In vivo PET imaging of cardiac presynaptic sympathoneuronal mechanisms in the rat.

UNLABELLED: The sympathetic nervous system of the heart plays a key role in the pathophysiology of various cardiac diseases. Small-animal models are valuable for obtaining further insight into mechanisms of cardiac disease and therapy. To determine the translational potential of cardiac neuronal imaging from rodents to humans, we characterized the rat sympathetic nervous system using 3 radiotracers that reflect different subcellular mechanisms: (11)C-meta-hydroxyephedrine (HED), a tracer of neuronal transport showing stable uptake and no washout in healthy humans; (11)C-phenylephrine (PHEN), a tracer of vesicular leakage and intraneuronal metabolic degradation with initial uptake and subsequent washout in humans; and (11)C-epinephrine (EPI), a tracer of vesicular storage with stable uptake and no washout in humans. METHODS: We used a small-animal PET system to study healthy male Wistar rats at baseline, after desipramine (DMI) pretreatment (DMI block), and with DMI injection 15 min after tracer delivery (DMI chase). The rats were kept under general isoflurane anesthesia while dynamic emission scans of the heart were recorded for 60 min after radiotracer injection. A myocardial retention index was determined by normalizing uptake at 40 min to the integral under the arterial input curve. Washout rates were determined by monoexponential fitting of myocardial time-activity curves. RESULTS: At baseline, HED showed high myocardial uptake and sustained retention, EPI showed moderate uptake and significant biphasic washout, and PHEN showed moderate uptake and monoexponential washout. The average (+/- SD) left ventricular retention index for HED, PHEN, and EPI was 7.38% +/- 0.82%/min, 3.43% +/- 0.45%/min, and 4.24% +/- 0.59%/min, respectively; the washout rate for HED, PHEN, and EPI was 0.13% +/- 0.23%/min, 1.13% +/- 0.35%/min, and 0.50% +/- 0.24%/min, respectively. The DMI chase resulted in increased washout only for HED. DMI block decreased myocardial uptake of all tracers by less than 90%. CONCLUSION: Kinetic profiles of HED in the rat myocardium were similar to those of HED in humans, suggesting comparable neuronal transport density. Unlike in humans, however, significant washout of EPI and faster washout of PHEN were encountered, consistent with high intraneuronal metabolic activity, high catecholamine turnover, and reduced vesicular storage. This evidence of increased neuronal activity in rodents has implications for translational studies of cardiac neuronal biology in humans.