AZD-3043, a short-acting intravenous anesthetic/sedative agent. This drug was initially invented by Theravance and then developed by AstraZeneca as a positive allosteric modulator of the γ-aminobutyric acid type A (GABA(A)) receptor containing a metabolically labile ester moiety. Phase I clinical trials for use this compound in anesthesia was completed in Sweden and the UK, but further development was discontinued.

Zidebactam (also known as WCK 5107), a beta-lactam enhancer that belongs to the bicyclo-acyl hydrazide series. This drug inhibits the penicillin-binding protein and is participating in phase I clinical trial to treat the bacterial infection.

(+)-selfotel ((+)-CGS-19755) is an enantiomer of selfotel, a competitive antagonist at N-methyl-D-aspartate (NMDA)-preferring receptors. The inhibition of NMDA-evoked ACh release from rat striatal slices is stereospecific, with the (+)-enantiomer less potent than the (-)-enantiomer.

E-6005 is a novel PDE4 inhibitor developed as a topical agent for atopic dermatitis (AD). It potently and selectively inhibited human PDE4 activity and suppressed the production of various cytokines from human lymphocytes and monocytes. In mice models, the topical application of E6005 produced an immediate antipruritic effect as well as an anti-inflammatory effect with reduced expression of cytokines/adhesion molecules. E-6005 increases the cutaneous concentration of cAMP to relieve dermatitis-associated itching. E-6005 may be a promising novel therapeutic agent with antipruritic activity for the treatment of AD. E-6005 is currently in phase 2 development for patients with mild-to-moderate atopic dermatitis.

Evofosfamide, also formerly known as TH-302, is an investigational hypoxia-activated prodrug and is used to target cancerous cells under hypoxic conditions, which is a feature possessed by multiple solid tumors including glioblastoma and pancreatic cancer. Within regions of tumor hypoxia, evofosfamide releases bromo isophosphoramide mustard (Br-IPM), a potent DNA alkylating agent that kills tumor cells by forming DNA crosslinks. Once activated in hypoxic tissues, Br-IPM can also diffuse into surrounding oxygenated regions of the tumor and kill cells there via a “bystander effect”. Because of its preferential activation in the targeted hypoxic regions of solid tumors, evofosfamide may be less likely to produce broad systemic toxicity seen with untargeted cytotoxic chemotherapies.