Abstract: Administration of a radioisotopic compound by infusion over a period of time greater than two hours, preferably greater than twelve hours, greatly increases the maximum radioactivity that accumulates in the target cell. The efficacy of the administration of the radiolabeled compound can be increased about five times higher than prior bolus injection or short infusion methods. This method enhances the tumor to background ratio by increasing the actual radioligand accumulated inside the target cells. This technique works for any radiolabeled compound whose cellular uptake is limitedly a cellular process of either binding to a cellular receptor or to a transport protein. Once the radiolabeled compound is bound and internalized, the ability of an unlabeled compound to compete with the radioligand is markedly decreased. The primary factor governing residence time after internalization is the physical half-life of the radioisotope, not biologic half-life.

Abstract: An in vitro tissue angiogenesis and vasculogenesis system is disclosed that allows the outgrowth of microvessels from a three-dimensional tissue fragment implanted in a matrix. The matrix may, for example, be a fibrin- or collagen-based matrix fed by a growth medium, for example, a mixture of tissue culture medium, serum, or a layer of growth medium containing a defined mixture of growth factors. This system, which may be used with human or other mammalian or animal tissues, may be used in assaying tumor angiogenic potential, or in promoting angiogenesis in other tissues, e.g., promoting angiogenesis prior to transplantation of a tissue. The angiogenic potential of a tissue can be determined by measuring the growth of microvessels into the matrix. The three-dimensional structure of the tumor or other tissue is maintained in the matrix, including blood vessels.

Abstract: An in vitro tissue angiogenesis and vasculogenesis system is disclosed that allows the outgrowth of microvessels from a three-dimensional tissue fragment implanted in a matrix. The matrix may, for example, be a fibrin- or collagen-based matrix fed by a growth medium, for example, a mixture of tissue culture medium, serum, or a layer of growth medium containing a defined mixture of growth factors. This system, which may be used with human or other mammalian or animal tissues, may be used in assaying tumor angiogenic potential, or in promoting angiogenesis in other tissues, e.g., promoting angiogenesis prior to transplantation of a tissue. The angiogenic potential of a tissue can be determined by measuring the growth of microvessels into the matrix. The three-dimensional structure of the tumor or other tissue is maintained in the matrix, including blood vessels.

Abstract: The invention features novel somatostatin analogs that may be readily labeled with toxic or non-toxic detectable labels. These unlabeled and labeled analogs are useful for specifically targeting somatostatin receptor bearing cells, in particular neoplastic cells. Labeled analogs are useful, for example, for tumor localization and detection. Where labeled with a toxic label (e.g., radioactivity), the analogs are useful for the targeted delivery of toxicity to somatostatin receptor-bearing cells, in particular neoplastic cells. Also disclosed are methods for treating and detecting neoplasms, and methods for imaging somatostatin receptor-bearing cells.

Abstract: Administration of a radioisotopic compound by infusion over a period of time greater than two hours, preferably greater than twelve hours, greatly increases the maximum radioactivity that accumulates in the target cell. The efficacy of the administration of the radiolabeled compound can be increased about five times higher than prior bolus injection or short infusion methods. This method enhances the tumor to background ratio by increasing the actual radioligand accumulated inside the target cells. This technique works for any radiolabeled compound whose cellular uptake is limited by a cellular process of either binding to a cellular receptor or to a transport protein. Once the radiolabeled compound is bound and internalized, the ability of an unlabeled compound to compete with the radioligand is markedly decreased. The primary factor governing residence time after internalization is the physical half-life of the radioisotope, not biologic half-life.

Abstract: Disclosed are methods and compositions for the diagnosis and treatment of diseases associated with aberrant expression of a somatostatin receptor (e.g., cancer) or with increased production of a factor regulatable by somatostatin (e.g., acromegaly). The compounds of the invention are of the general formulae: ##STR1## wherein P is a somatostatin peptide analog which binds to a somatostatin receptor,Y is D-tyrosine, L-tyrosine, or desamino-tyrosine,n is an integer from 1 to 32, inclusive,each q, independently, is an integer from 1 to 32, inclusive, and each s, independently, is an integer from 1 to 32, inclusive, where q and s can be the same or different, andX is of the formulaD--NH.sub.2 --CH(CH.sub.2).sub.m NH.sub.2 --CO.sub.2 H orL--NH.sub.2 --CH(CH.sub.2).sub.m NH.sub.2 --CO.sub.2 H,wherein m is an integer from 1 to 10, inclusive.

Abstract: Broadly, the present invention is directed to a method for the detection and differentiation of neoplastic tissue in a patient suspected of having neoplastic tissue. The method includes the administration of a radiolabeled somatostatin congener to the patient and accessing the patient with a radiation detection probe for determining tissue exhibiting elevated levels of radiation, viz., neoplastic tissue. However, before subjecting the patient to such administration, an initial determination preferably is made as to whether the radiolabeled somatostatin congener will bind to the tumor site, i.e., whether somatostatin receptors are associated with the neoplastic tissue. This is conveniently done with a wide variety of endocrine tumors, which release peptides or hormones, referred to as "biochemical markers. " In order to make this determination, initially a biochemical marker-inhibiting dose of unlabeled somatostatin congener is administered to the patient.