[Pharmaceutical involvement in academic clinical trials: Quality assessment of pharmaceutical manufacturing operations]. / Implication pharmaceutique dans le cadre d'essais cliniques institutionnels : évaluation de la qualité des opérations de mise sous forme pharmaceutique.

INTRODUCTION: For academic clinical trials, the hospital pharmacy may be required to perform the specific activity of preparing investigational drugs. MATERIAL AND METHODS: With regards to such activity, and in light of the recent changes in the regulatory environment, the main objective of this study was to evaluate whether quality levels and traceability were in compliance with the applicable regulatory standards. In order to do so, two internal audits have been conducted, the first on the compliance of operations with existing regulatory standards and the second on the quality of traceability of the operations. RESULTS: The proportion of academic clinical trials is constantly growing and currently represents 41% of the total clinical trials in the establishment. An average of 29,000 therapeutic units of investigational drugs are prepared each year (84% under the form of capsules). An overall conformity level of 75% and 88% has been identified in the aforementioned audits, respectively. Such audits have also allowed for the identification of weaknesses in current practices as well as potential improvement areas to achieve better compliance. DISCUSSION: The hospital pharmacy can provide expertise for the preparation of specific dosage or drugs that are not available on the market. It also can be involved for the conception of appropriated packaging function of the study design. CONCLUSION: Results of audits encourage us to continue this activity with a satisfactory level of quality in accordance with the necessary requirements to ensure the safety of patients and the quality of clinical trials conducted.

[Aseptic process validation and stability study of an injectable preparation of fructose (5%)-glycerol (10%) as part of a hospital clinical research program on endoscopic curative treatment for early epithelial neoplastic lesions of the gastrointestinal tract]. / Validation du procédé aseptique et étude de stabilité d'une préparation injectable de fructose (5 %)-glycérol (10 %) dans le cadre d'un programme hospitalier de recherche clinique portant sur le traitement curatif endoscopique des lésions néoplasiques épithéliales précoces du tube digestif.

INTRODUCTION: As part of a hospital clinical research program on endoscopic curative treatment for early epithelial neoplastic lesions of the gastrointestinal tract, a new hospital sterile and non-pyrogenic preparation of fructose (5%)-glycerol (10%) was realized. Under pharmaceutical legislation, the provision of this hospital preparation involves of aseptic process validation and achieve a stability study. MATERIALS AND METHODS: After the aseptic process validation with Mediafill Test, the preparation was made under aseptic conditions associated with a sterilizing filtration according to the good practices preparation. Prepared flexible bags (100mL of solution) were stored for one year in a climatic chamber (25±2°C). To assess stability, the physicochemical controls (fructose concentration, glycerol concentration, hydroxy-methyl-5 furfural [5-HMF] concentration, sodium concentration, pH measure, osmolality and sub-visible particles count) and microbiological (bioburden, bacterial endotoxin and sterility) were performed at regular intervals for one year. RESULTS: Neither significant decrease of fructose concentration, glycerol concentration and sodium concentration nor pH, 5-HMF, osmolality variations out of specifications were observed for one year. The sub-visible particles count, the bacterial endotoxin and sterility were in accordance with the European pharmacopoeia attesting limpidity, apyrogenicity and sterility of this injectable preparation. DISCUSSION AND CONCLUSION: The hospital preparation was stable over one year at 25±2°C, ensuring safe administration in humans within the framework of this clinical research.

[Injectable hospital preparation of valine labeled with the carbon 13 and nitrogen 15 (5 mg/mL) for a clinical trial on the brain tumor metabolism: Pharmaceutical control of active pharmaceutical ingredient and stability study of the finished product]. / Préparation hospitalière injectable de valine marquée au carbone 13 et à l'azote 15 (5mg/mL) pour un essai clinique sur le métabolisme tumoral cérébral : contrôle pharmaceutique de la substance active et étude de stabilité du produit fini.

INTRODUCTION: The L-Valine labeled (L-[U-(13)C,(15)N] Val) is a stable isotopic tracer administered by parenteral route within the framework of a new clinical research program concerning the brain tumor metabolism. To meet regulatory requirements and have ready to use solution with an expiration date, a pharmaceutical control of active pharmaceutical ingredient followed by stability study of hospital preparation were realised. MATERIALS AND METHODS: After the pharmaceutical control of the L-[U-(13)C,(15)N] Val, the hospital preparation was prepared according to the good manufacturing preparation. Prepared bottles were stored at 5°C±3°C and 25°C±2°C for six months. The stability of the preparation was determined by physico-chemical controls (pH, osmolality, sub-visible particles, L-[U-(13)C,(15)N] Val concentration, sodium concentration, isotopic enrichment) and microbiological (bacterial endotoxin and sterility). RESULTS: Concentrations of L-[U-(13)C, (15)N] Val and sodium does not significantly decrease during the stability study. In parallel, no change in pH and osmolality were highlighted. Isotopic enrichment higher than 99.9% reflected the stability of labeling of L-valine molecule. The sub-visible particles, the bacterial endotoxin and sterility were in accordance with the European Pharmacopoeia attesting limpidity, apyrogenicity and sterility of this injectable preparation. DISCUSSION AND CONCLUSION: The stability of this hospital preparation of L-[U-(13)C, (15)N] Val has been demonstrated for six months at 5°C±3°C and 25°C±2°C, ensuring a parenteral administration as part of the clinical trial.

Genotyping of a family with a novel deleterious DPYD mutation supports the pretherapeutic screening of DPD deficiency with dihydrouracil/uracil ratio.

Despite the growing evidence that dihydropyrimidine dehydrogenase deficiency (DPD, encoded by the DPYD gene) confers a higher risk of developing severe toxicity, most patients are not screened for DPD deficiency before fluoropyrimidine treatment. We report here the genetic and phenotypic analyses of DPD in a family related to a patient who died after a first cycle of 5-fluorouracil and in 15 additional retrospective patients having a partial DPD deficiency (as measured by plasma dihydrouracil/uracil ratio). The patient with lethal toxicity was found to be a compound heterozygote for two DPYD mutations: a novel 8-bp duplication (c.168_175dupGAATAATT, p.Phe59Ter) and c.1679T>G (Ile560Ser). The patient's dihydrouracil/uracil ratio indicates complete DPD deficiency. The novel mutation was found in two members of the patient's family. Deleterious DPYD mutations were identified in 9 out of the 15 patients. The relationship between genotype and dihydrouracil/uracil values in the 22 patients of the present study was significant (P = 0.01).