32P-patch contact brachyradiotherapy in the management of recalcitrant keloids and hypertrophic scars.

Keloids are the result of excessive fibroblast proliferation and then over-abundant collagen deposition. There is no method able to guarantee absolute success in the therapeutic approach to keloids. Our case report involves a female patient with six lesions treated with a 32P-patch brachyradiotherapy. Pre-treatment and adjuvant treatment of the lesions were performed with thiomucase, 5-fluoruracil, procaine and triamcinolone. Taking into account the activity contained in each of the patches and the total radiation dose to be administered according to clinical practice, dosimetric calculations were done for each lesion. Separate silicone patches with chromic [32P]phosphate were designed for each lesion based on these calculations. Total remission was achieved in three treated lesions. The other lesions did not achieve total remission yet, but their sizes are diminishing. The differences observed in treatment outcome may be related with lesion features, adjuvant treatments and/or treatment schedule.

Evaluation of different formulations to label exogenous natural surfactant labeled with (99m-Tc-ENS): stability and toxicity studies

El surfactante natural exógeno (ENS) marcado con 99mTc (99mTc-ENS) es un nuevo agente ventilatorio para la centellografía aérea pulmonar. Con el fin de elegir una formulación estable de ENS para ser marcado rutinariamente con 99mTc en Centros de Medicina Nuclear, las propiedades de dos formulaciones (ENS + cloruro estannoso + ácido gentísico y ENS + cloruro estannoso + ácido ascórbico) y una formulación control liofiolizada del ENS fueron analizadas mensualmente por un período de 12 meses. Sus propiedades fisicoquímicas, sus porcentajes de marcación y sus distribuciones biológicas fueron adecuadas durante este período. La formulación ENS + cloruro estannoso + ácido gentísico presenta la menor dispersión en los resultados de biodistribución, por lo cual esta formulación fue elegida para la futura producción de 99mTc-ENS. El estudio de toxicidad aguda de esta última formulación demostró que la dosis tóxica es al menos 1000 veces mayor que la dosis diagnóstica

New methodology for pancreatic scintiscanning imaging using 125I-L-3 iodo-alpha-methyl tyrosine

The difficulty of a reliable diagnosis of pancreatic diseases by scintiscanning, is mainly derived from the lack of adequate radiopharmaceuticals. With this purpose (125) I-L(-3) Iodo-a-Methyl Tyrosine ((125) I-IMT) has been studied, which has also been used for the diagnosis of different kind of brain tumors. The purpose of this work is the development of a quick and easy method for the synthesis and purification of the (125) I-IMT in order to be used in a Nuclear Medicine Service. The L-(-Methly Tyrosine was labeled with (125) I using I-/I03 and afterwards purified by an aniomic exchange resin. The labeling yield obtained was (96.0+0.5) per cent when the incubation time was 15 minutes. No significant statistical differences were observed when the incubation time was extended to 1 hour. Biodistribution studies in mice show that the percentage of activity concentration in pancreas is (34.24+14.03) per cent at 15 minutes post injection, remaining constant for 30 minutes. The pancreas/liver ratio 15 minutes after the injection of the labeled product was (12.22+3.59) and it remained constant for 45 minutes more. These results show that (125) I-IMT cab be used as a diagnostic agent for pancreatic diseases. Since (123) I was not avilable at the moment, this new methodology was developed with (125) I.

Great particles (32P) chromic phosphate for treatment of solid tumors

With the purpose studying the effectivity of an intratumoral single dose of chromic [(32)P] phosphate with great particles for the treatment of solid tumors, studies of biolimination, biodistribution and therapeutic action were carried out. Only for comparative purpose, similar studies were undertaken using a solution of sodium [(32)P] orthophosphategelatine. The results show that when sodium [(32)P] orthophosphategelatine is used, the percentage of total elimination is (85.90+8,70) per cent with a higler percentage in urine (64.50+13.70) per cent than in faeces (21.40+4.50) per cent. In biodistribution studies, the greater percentage is found in bone (15.54+2.21) per cent while only a (2.51+0.39) per cent remains in the tumor. When great particles chromic [(32)P] phosphate was intratumorally injected, we determined that the total elimination is equal (36.28+6.27) per cent, finding a higler amount in faeces (29.44+5.26) per cent than in urine (6.84+2.21) per cent. Biodistribution studies demonstrated that (49.82+5.41) per cent remains in the tumor and (9.63+4.89) per cent of the injected activity is found in the liver. On the other hand, when therapeutic action was evoluted, we observed that the percentage of tumor regression (P.T.R) is 52.0 per cent for the tumors injected with chromic [(32)P] phosphate and 0.0 per cent for those injected with sodium [(32)P] orthophosphate-gelatine. These results show that the great particles colloid of chromic [(32)P] phosphate is not safe enough for the tratment of solid tumors, since it is mobilezed from the injection point, delivering a high dose to the whole organism.