Methoxamine is an alpha-adrenergic agonist that induces prolonged peripheral vasoconstriction, and can also stimulate the release of arginine vasopressin in humans. In clinical trials, methoxamine was found to improve fecal incontinence. It had been marketed by Glaxo-Smith-Kline under the brand name Vasoxyl but has been discontinued. Methoxamine was also found to stimulate the induction of hiPSC-derived hepatoblasts to ALBUMIN+ cells.

Mephentermine, an amphetamine-derived phenethylamine, is an alpha 1 adrenergic receptor agonist and a hypertensive drug. Mephentermine is mainly used as a vasopressor agent with a sympathomimetic action, primarily causing release of noradrenaline and increasing cardiac output due to positive inotropic effect on the myocardium. The injectable preparation of mephentermine is commonly used for the short-term treatment of various hypotensive states such as shock or hypotension accompanying myocardial infarction or spinal anesthesia or surgical procedures like cesarean section. There is evidence on the fetal metabolic effect and placental transfer of mephentermine. However, a few studies have shown that mephentermine is as effective as phenylephrine in preventing maternal hypotension after spinal anesthesia and has similar effect on neonatal outcome. It is being widely used in developing countries like India as it is much more economical than phenylephrine and offers ease of use as it does not necessitate multiple dilutions as injectable. It is also available in India as 10 mg oral tablets. Despite it was thought earlier to have a little stimulant effect its abuse potential has increased, especially in sports due to its stimulant properties. Like amphetamines, it has shown to increase athletic performance in strength exercises and endurance in a dose of 14 mg/70 kg body weight. It has been proposed that phentermine, which is the main metabolite of mephentermine, acts by inhibiting monoaminoxidases A and B. Mephentermine adverse effects has been related to CNS simulation, excessive rises in blood pressure, and arrhythmias. Wyamine Sulfate (brand name of mephentermine sulfate) approved by FDA in 1951 was discontinued in USA.

Oxedrine (Sympatol, p-synephrine) is a naturally occurring alkaloid molecule first appeared in Europe towards the end of the 1920s being sold as a drug under the brand name Sympatol. Oxedrine was then being prescribed as a remedy for a number of respiratory conditions, which include asthma, whooping cough, colds, and hay fever. More recently, synephrine gained popularity as a weight loss aid and it has become a favored component in the more popular brands of weight loss supplement stacks. This popularity can be attributed in part to the ban imposed on ephedra, to which it shares similar mechanisms of action. Most, if not all of the synephrine being sold as a dietary supplement is extracted and synthesized from the Citrus aurantium plant, more commonly known as bitter orange. Just like ephedrine, synephrine has vasoconstrictive abilities, although at a lesser potency compared to ephedrine. There is no mention of synephrine in editions of Drill's Pharmacology in Medicine later than the 3rd, nor is there any reference to synephrine in the 2012 Physicians' Desk Reference, nor in the current FDA "Orange Book". One current reference source describes synephrine as a vasoconstrictor that has been given to hypotensive patients, orally or by injection, in doses of 20–100 mg.

Enoximone is an inhibitor of PDE3, which is used for the treatment of congestive heart failure. Also enoximone was shown to inhibit PDH in cardiac myocytes. The inhibition was shown to occur secondary to stimulating fatty acid oxidation

Octopamine is an organic chemical closely related to norepinephrine. In many types of invertebrates it functions as a neurotransmitter. Octopamine is known to exert adrenergic effects in mammals although specific octopamine receptors have been cloned only in invertebrates. It has been shown that octopamine can stimulate alpha(2)-adrenoceptors (ARs) in Chinese hamster ovary cells transfected with human alpha(2)-ARs. Octopamine stimulates lipolysis through beta(3)-rather than beta(1)-or beta(2)-AR activation in white adipocytes from different mammalian species. Octopamine activates only beta(3)-ARs and is devoid of alpha(2)-adrenergic agonism. Thus, octopamine could be considered as an endogenous selective beta(3)-AR agonist. In humans Octopamine is a trace amine found endogenously in the human brain where it interacts with signalling of catecholamines; it is structurally similar to synephrine and tyramine, being a metabolite of the latter (via dopamine β-hydroxylase) and substrate for the synthesis of the former (via phenethanolamine N-methyltransferase[3]) while being perhaps the closest in structure to noradrenaline. Octopamine is found in the bitter orange similar to many biogenic amines related to L-tyrosine that are used as dietary supplements, this includes synephrine and hordenine. p-Octopamine HCl (Norphen) was studied in the late 1960’s and 1970’s as a drug for the treatment of hypotensive regulatory and circulatory disorders. Octopamine was used as a nootropic. All optical isomers (enantiomers) of octopamine are on the World Anti-Doping Agency (WADA) 2014 list of substances prohibited in competition.

Ibopamine is the prodrug of epinine or N-methyl dopamine. Ibopamine stimulates the DA1 and DA2 dopaminergic receptors, the beta 1 and beta 2 adrenoceptors, and the alpha 1 and alpha 2 adrenoceptors. Ibopamine has varying degrees of affinity for these various families, being the highest for the dopamine receptors and the lowest for the alpha adrenergic receptors. Ibopamine reduces systemic vascular resistance, increases cardiac output, and increases renal flow. Ibopamine also modulates the neuroendocrine reflexes in heart failure; plasma renin activity and norepinephrine and aldosterone plasma concentrations are reduced, both immediately and during sustained administration. In patients with heart failure (HF), low doses appear to exert beneficial neurohormonal, hemodynamic, and renal effects, without increased inotropic effects. However, at higher doses (> 200 mg) ibopamine exerts effects that do not appear to be clinically useful in long-term treatment of chronic HF. Several small trials have suggested a benefit of ibopamine on exercise performance in patients with mild to moderate HF. On the basis of these studies, ibopamine is now being used in Europe to treat patients with mild to moderate congestive heart failure (CHF). At doses of 100 or 200 mg/t.i.d., there has been no evidence of significant safety problems. Ibopamine was used in Europe to treat heart failure. In 1995, a study showed that ibopamine increased death rates in patients who had moderate to severe heart failure. In September 1995, doctors and pharmacists in the Netherlands were officially notified that ibopamine should be used only in patients with mild heart failure. Moreover, the official recommendations for when to use ibopamine were changed according to whether patients had mild or severe heart failure. Ibopamine, a sympathomimetic drug, is used in ophthalmology. t has a not-cycloplegic mydriatic activity. Its peak of action is at 45 minutes after instillation in the conjunctival sac. Its action lasts after about 360 minutes. Its D1-dopaminergic stimulation increases the aqueous humor production and it is a provocative test for evaluating the function of aqueous humor outflow structures also in relatives of glaucomatous patients. It is also useful to treat ocular hypotension. Its main use is in every ophthalmological assessment, either diagnostic or preoperative, where the cycloplegia is not adviced. It is useful for the safe mydriasis of patients treated with α-1 adrenergic receptor antagonists.

THEODRENALINE, a theophylline derivative, is a cardiac stimulant. A 20:1 mixture of cafedrine and THEODRENALINE (AKRINOR®) is widely used in Germany for the treatment of hypotensive states during anesthesia and in emergency medicine.

Dimetofrine is a selective agonist of post-synaptic a1-adrenergic receptors. The drug was investigated as a cardiostimulant to treat orthostatic hypotension. Clinical investigation showed that dimetofrine relieves asthenia, paleness, drowsiness, fatigue, headache and other symptoms associated with hypotension. It was observed, that in acidic conditions similar to conditions in the stomach, dimetofrine is able to react with nitrites with the formation of highly mutagenic compound 2,6-dimethoxy-1,4-benzoquinone (DMBQ).

Cafedrine, also known as norephedrinoethyltheophylline, is a chemical linkage of norephedrine and theophylline and is a cardiac stimulant used to increase blood pressure in people with hypotension. There are few data available for cafedrine. Cafedrine has a half-life of 60 min following both oral and intravenous administration Cafedrine is metabolized to norephedrine and several minor metabolites, but nearly 90% of the administered norephedrine is excreted via the kidneys, mostly unchanged, within 24 h. The effects of cafedrine on cardiac output are believed to be mediated via β- adrenoceptors. Cafedrine has a positive inotropic effect in humans, and this can be abolished by administration of the non-selective β-adrenoceptor antagonist propranolol. A combination of cafedrine and theodrenaline called Akrinor® is used for the treatment of hypotension in adults that occurs during emergency situations, general anesthesia, and regional anesthesia, especially during cesarean sections. Cafedrine/theodrenaline may have advantages over other vasopressor drugs. For example, it can be administered via bolus while catecholamines normally need to be diluted and administered via syringe pumps. Bolus injection is faster, which may be beneficial in emergency situations, plus it is more cost efficient with respect to the disposables. Cafedrine/theodrenaline has been widely used in Germany since 1963