These preliminary results suggest that the dGEMRIC technique may be able to detect change in proteoglycan content in knee cartilage among individuals taking collagen hydrolysate after 24 weeks.
To more effectively manage the substantial bleeding encountered during surgical procedures in oto-rhino-laryngology, we developed a novel hemostatic sponge made of pharmaceutical grade, chemically cross-linked gelatin. The sponge is characterized by a high pore density, reduced ligaments, and a high nanoscale roughness of lamella surfaces in the matrix. In vitro blood uptake assays revealed a very rapid absorption of human blood, which was two to three times faster than that measured with comparative hemostyptic devices. In an in vitro hemorrhage model using human veins, the novel gelatin sponge matrix induced hemostasis less than a minute after bleeding was induced. The sponge was shown to bring about rapid hemostasis when it was administered in a young patient suffering from acute bleeding of a pharyngeal angiofibroma, even though the patient had been treated with an anticoagulant because of a transient ischemic attack. As the gelatin matrix of the sponge is biocompatible and resorbable, the hemostyptic device could be left in place and was shown to be resorbed within 2 weeks. We hypothesize that the excellent hemostatic performance of the sponge might be linked to enhanced capillary effects in conjunction with optimized anchoring of fibrinogen on the nano-rough material surface, as suggested by scanning electron microscopy. The novel gelatin sponge appears to be a promising hemostatic matrix, which could be of great benefit for patients suffering from epistaxis and other acute injuries resulting in severe bleeding.
Inhibiting the NFκB signaling pathway is an attractive method to treat patients with signs and symptoms of OA. The preclinical work and the results of the phase 1 studies appeared promising for a full clinical development, however, the proof-of-concept study failed to show efficacy in a larger patient sample size.
Due to the clinical development of drugs such as secukinumab, ustekinumab and dupilumab, major changes have been achieved in the treatment of patients diagnosed with psoriasis and atopic dermatitis. In academia and the pharmaceutical industry, research is increasingly moving towards the development of bispecific antibodies and multi‐specific nanobodies, as there is a compelling need for new treatment modalities for patients suffering from autoimmune or malignant disease. The purpose of this review is to discuss aspects of translational drug development with a particular emphasis on indications such as psoriasis and atopic dermatitis. The identification of biomarkers, the assessment of target organ pharmacokinetic and pharmacodynamics interactions and a wide range of in vitro, ex vivo and in vivo models should contribute to an appropriate prediction of a biological effect in the clinical setting. As human biology may not be perfectly reflected by approaches such as skin equivalents or animal models, novel approaches such as the use of human skin and dermal microperfusion assays in healthy volunteers and patients appear both reasonable and mandatory. These models may indeed generate highly translationally relevant data that have the potential to reduce the failure rate of drugs currently undergoing clinical development.
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