Icosabutate (also known as PRC-4016 or NST-4016), a cholesterol ester transfer protein inhibitor was developed by NorthSea Therapeutics for the treatment of combined dyslipidemias and hypertriglyceridemia. Icosabutate successfully completed phase II clinical trial for hypertriglyceridemic subjects, where was studied the drug efficacy and safety. In April 2018 NorthSea Therapeutics announced that its lead product, icosabutate would be further developed as an effective and safe therapeutic approach to treating both non-alcoholic steatohepatitis and its associated comorbidities.

Benzo-lipoxin A4 as a bLXA4-ME also known as ClinRinse-1 participated in phase II clinical trials for the treatment of gingival diseases. It was shown that nano-proresolving medicines (NPRM) containing a lipoxin analog (benzo-lipoxin A4, bLXA4) was a mimetic of endogenous resolving mechanisms with potent bioactions. That offered a new therapeutic tissue-engineering approach for the treatment of chronic osteolytic inflammatory diseases.

Phosphopantothenic acid is an amidoalkyl phosphate that is the 4-phosphate derivative of (R)-pantothenic acid. Phosphopantothenic acid is not permeable to cell membranes due to its anionic character, consistent with the observation that systemic administration of Phosphopantothenic acid does not restore CoA levels in cellular and mouse models

N-Gene Research Laboratories is developing BGP-15 (NP-51), a small molecule, orally available, indirect Jun kinase (JNK) inhibitor and insulin sensitiser, for glycaemic control in patients with type-2 diabetes mellitus, and as an adjunct treatment for insulin resistance due to antipsychotics or obesity. In March 2002, N-Gene Research Laboratories granted Allos Therapeutics an exclusive license to its intellectual property surrounding BGP 15 in the US. BGP-15 has previously been used in clinical trials for the treatment of skeletal muscle pathology associated with Type 2 Diabetes (through insulin sensitization), Duchenne Muscular Dystrophy (DMD) and heart failure (through anti-inflammatory and anti-fibrotic mechanisms). Via its action as a modulator of the cytoprotective response to cellularstress, and specifically as a poly (ADP-ribose) polymerase (PARP) inhibitor, heat shock protein-inducer, membrane lipid therapeutic and an antioxidant inducer, BGP-15 has previously been shown to protect against skeletal muscle dysfunction, damage and wasting.

CB-5083 is a novel first in class, potent orally bio-available p97 inhibitor that disrupts cellular protein homeostasis and demonstrates anti-tumor activity in solid and hematological models. CB-5083 causes rapid and sustained accumulation of poly-ubiquitin in tumor xenografts after a single administration. CB-5083 showed activity to inhibit tumor growth in multiple rodent models of human cancer. Furthermore, CB-5083 appears to exhibit greater potency over current proteasome inhibitors that further validate targeting p97 and protein homeostasis in the treatment of cancer. CB-5083 is a potent inhibitor of endoplasmic reticulum associated degradation and induces a lethal unfodled protein response. CB-5083 recently began Phase 1 testing in relapsed/refractory or refractory multiple myeloma, and advanced solid tumors.

Licarbazepine, (R)- is a hydroxy derivative of R-licarbazepine acetate. Eslicarbazepine acetate (ESL), or S-licarbazepine acetate (ESL), Licarbazepine, (R)- acetate and their racemic mixture, as well as other related compounds, were orally assessed in rats for anticonvulsant activity and compared with carbamazepine (CBZ) and oxcarbazepine (OXC). Metabolism of OXC and its derivatives varies considerably between species. Rats metabolize ESL to OXC with minimal (S)-licarbazepine or Licarbazepine, (R)- metabolites. Licarbazepine, (R)- undergoes a further oxidation to the trans-diol metabolite, demonstrating an increased predisposition to earlier inactivation. Administration of ESL and of eslicarbazepine significantly protected mice against Maximal electroshocks-induced seizures, whereas that of Licarbazepine, (R)- failed to provide protection. This finding raises doubts on the contribution of Licarbazepine, (R)- as an active anticonvulsant.