Informational only. Not medical advice.INFORMATIONAL PLATFORM ONLY — NOT MEDICAL ADVICE, DIAGNOSIS, OR TREATMENT
Head-to-head comparison of Fasoracetam and ISRIB — mechanism, dosing, side effects, legal status, and pricing.
Fasoracetam (NS-105, NFC-1) is a non-peptide racetam-class small molecule characterized as a metabotropic glutamate receptor (mGluR) activator that also modulates acetylcholine release and GABA-B signaling. A single Phase 1 trial in 30 adolescents with ADHD and mGluR-network gene variants showed clinical improvement on CGI scales, but broader development was discontinued and fasoracetam has never been approved in any jurisdiction. It is sold only as an unregulated research chemical/nootropic.
ISRIB is a non-peptide small-molecule eIF2B activator (bis-chlorophenoxyacetamide-cyclohexane class) that antagonizes the integrated stress response (ISR) by stabilizing the eIF2B guanine-nucleotide exchange factor complex. It is not an approved drug and has no completed human clinical trials or validated human safety or efficacy data. Chemically distinct eIF2B-activator analogs (DNL343, ABBV-CLS-7262) have reached human trials, but DNL343 missed primary endpoints in a Phase 2/3 ALS trial (January 2025). ISRIB is sold by reagent suppliers for research use only.
Fasoracetam
ISRIB
Category
Legal Status
Mechanism
Dose Range
Route
COA-verified vendors · trust score ≥70 required · single-vial price — bulk/bundle deals may be lower
Fasoracetam
ISRIB
COA corpus from Disclosed Labs — independently tested batches only.
Fasoracetam
1
COAs
99.7%
Avg purity
1
Labs
ISRIB
1
COAs
99.8%
Avg purity
1
Labs
Human data exist but the compound is not approved anywhere. The best-sourced human study is a completed Phase 1 open-label single-dose PK/single-blind placebo-controlled dose-escalation trial of NFC-1 (fasoracetam) in 30 adolescents (age 12–17) with ADHD carrying mGluR-network gene variants (NCT02286817; Elia et al. 2018, Nature Communications). CGI-I improved from 3.79 to 2.33 and CGI-S from 4.83 to 3.86 from baseline to week 5 (both P<0.001) in this small, largely uncontrolled sample. In rats (Wistar), fasoracetam reversed memory disruption across scopolamine-, NBM-lesion-, AF64A-, cerebral-ischemia-, baclofen-, and ECS-induced amnesia models, increased cortical acetylcholine release, and enhanced high-affinity choline uptake in cortex and hippocampus (Shirayama et al., 1999).
No completed or published human clinical trials of ISRIB itself exist; it has no validated human pharmacokinetic, safety, or efficacy data. In mice, systemic ISRIB enhanced spatial and fear-associated long-term memory in healthy animals, reversed hippocampus-dependent spatial-learning and working-memory deficits weeks after traumatic brain injury, and reset elevated ISR activity in aged (18–24 month) mice, reversing age-related spatial-memory decline with a brief 3-day dosing course. In prion-disease transgenic mice, ISRIB partially restored protein synthesis and prevented neurodegeneration without the pancreatic exocrine toxicity seen with PERK-inhibitor approaches. In vitro and in a patient-derived xenograft mouse model, ISRIB combined with imatinib attenuated RAS/RAF/MAPK and STAT5 signaling and eliminated therapy-resistant chronic myeloid leukemia cells.
Fasoracetam and ISRIB are both in the Cognitive category and may have overlapping mechanisms. Researchers should review both profiles carefully, understand the mechanisms of action, and monitor the relevant biomarkers when combining compounds in the same class. As always, consult a licensed healthcare provider before making any decisions about combining research compounds.
This platform provides informational tools only, not medical advice. This comparison is for educational purposes only. Consult a licensed provider.
Frequency
Dosing Notes
Side Effects
Contraindications
Lab Testing