DMAA is illegal in the UK

TL:DR – The purportedly natural bodybuilding and weight-loss supplement DMAA is illegal in the UK and elsewhere.


Back in April 2012, the US Food & Drug Administration ordered supplement manufacturers to stop selling bodybuilding and weight-loss products containing DMAA, 1,3-dimethylamylamine, methylhexanamine, also known as geranium extract. Ingestion of the compound is thought to carry a risk of cardiac arrest or stroke as well having been linked to other problems such as harm to the nervous system and psychiatric disorders.

The UK’s Medicines and Healthcare products Regulatory Agency (MHRA) slapped a ban on the sale of DMAA in all sports supplements and other products at the end of August 2012, according to spectroscopynow.com. Earlier in August, sibling site separationsnow.com discussed the issue of so-called “natural” DMAA.

“A drug initially introduced as a vasoconstrictor [used as a decongestant] in the 1940s has gained notoriety in recent years due to its inclusion as an active ingredient in sports supplements backed up by claims that it is a natural ingredient,” the site reports. “Those companies marketing the products refer to a paper published in 1996 which claimed to have discovered it in the geranium Pelargonium graveolens but a number of research groups have since cast doubt on that claim.”

DIY spectroscopy

From the Kickstarter blurb: “A spectrometer may not sound like what you wanted for your birthday, but it’s a ubiquitous tool for scientists to identify unknown materials”

The open hardware kit is just $35 or you could make your own from a piece of a DVD-R, black paper, a VHS box, and an HD USB webcam.

via Public Lab DIY Spectrometry Kit by Jeffrey Yoo Warren – Kickstarter.

Spectral lines

My latest clutch of science news is now available on SpectroscopyNOW.com including the first feedback from NASA’s Curiosity Rover on Mars, MRI’s magnetic memory effects, how the all-carbon buckyball traps water, a new way to detect even the vaguest sniff off the explosive TNT, a clearer understanding of antibiotic resistance in tuberculosis and, finally, nanoscopic infrared spectroscopy.

Analyse Mars – The ChemCam instrument aboard NASA’s Curiosity rover recorded its first spectra on Mars in mid-August, giving the systems a little target practice but also demonstrating that the device is working as it should by providing a sneak preview of rocky spectra.

On the 19th August 2012, a couple of weeks after NASA’s Mars rover Curiosity landed in the Red Planet’s Gale Crater, it fired its laser for the first time at a fist-size rock known as “Coronation.” The Chemistry and Camera instrument, or ChemCam, flashed the rock with thirty pulses of laser light over a 10-second time period with each pulse blasting the Martian rock with a megawatt of power for just five nanoseconds.

via ChemCam’s mega blast: Martian rock succumbs – Ezine – spectroscopyNOW.com.

Magnetic Memory Effect – A small-scale study published in the journal Occupational and Environmental Medicine, published by the British Medical Journal group, looked at the effects on 31 healthy volunteers of exposure to a 7 Tesla MRI magnetic field. The researchers allowed the volunteers to make standard head movements while they exposed them to one of three electromagnetic field strengths from what is described as a heavy-duty MRI scanner. For such a machine the magnetic field is present even when the instrument is not in use.

via Magnetic fields: Memory effects – Ezine – spectroscopyNOW.com.

Molecular cages – Cryogenic NMR spectroscopy and other techniques have been used to investigate how small molecules, including water, are trapped by the all-carbon cages known as fullerenes. The work might open up the possibility of using such caged systems as alternative contrast agents for magnetic resonance imaging or as innovative components of a molecular transistor.

via Move like caged hydrogen: Buckyball traps – Ezine – spectroscopyNOW.com.

Explosive reaction – Researchers in India have developed a shapely approach to nanoparticle enhancement that allows them to detect TNT at sub-zeptomole concentrations of TNT.

Thalappil Pradeep, Ammu Mathew and P. R. Sajanlal of the Indian Institute of Technology Madras have used a clever combination of micro- and nano-structures as sensors to detect tiny quantities of the explosive material TNT, trinitrotoluene. Their gold mesoflowers, are flower-shaped gold particles about 4 micrometres in diameter, which act as supports for clusters that contain precisely fifteen silver atoms and are embedded in the protein bovine serum albumin. Irradiation at an appropriate wavelength leads to red luminescence of the silver clusters and the gold intensifies this process. The distinctive shape of the mesoflowers means that they are readily identifiable under an optical microscope by visual inspection. The shape might also be exploited in image recognition of micrographs, something that is far more difficult if the particles being observed are spherical.

via Sensitive flower: Explosive glow – Ezine – spectroscopyNOW.com.

Drug resistance – In a previous issue, we discussed early work on Escherichia coli as a proof of principle for understanding how bacterial resistance to antibiotics can emerge. Now, Edward Yu’s team at Iowa State University have taken another step forward in our understanding of this pressing issue by using crystallography to reveal the structure of a protein regulator that controls the expression of the multidrug efflux pump in Mycobacterium tuberculosis.

via TB or not TB: Efflux X-rayed – Ezine – spectroscopyNOW.com.

Nanospectroscopy – An optical technique that combines Fourier transform infrared (FTIR) spectroscopy and scattering-type scanning near-field optical microscopy (s-SNOM) now allows nanoscopic quantities of materials to be identified chemically and mapped. The technique of nano-FTIR developed has been developed by scientists from the nanoscience research centre NanoGUNE in San Sebastian, Spain, the University of Munich, LMU, Germany and Neaspec GmbH in Martinsried, Germany.

via You say you want resolution: Nano-FTIR – Ezine – spectroscopyNOW.com.

Damaged electronic goods

Electronic devices are susceptible to damage from radiation, potentially cosmic radiation and even ultraviolet radiation. A study using spectroscopy reveals that the amount of optical damage, as opposed to structural damage, that can be caused may be more than ten times greater than studies suggested.

“These are somewhat new ideas, especially in my opinion the concept of ‘optical damage’ versus ‘structural damage’ where as people normally focus on the later, I believe the former is a very much unexplored area with important implications for actual, real, operating nanodevices,” research leader Andrew Steigerwald of Vanderbilt University told me.

“Considering that, I hope in the future that our results can be extended to other materials (e.g. silicon) and perhaps coupled with a sensitive microscopy technique so that we can compare spectroscopy results with mapping of electronic states.”

Damaged goods: Probing the depths – Ezine – spectroscopyNOW.com.

Research Blogging IconSteigerwald, A., Hmelo, A.B., Varga, K., Feldman, L.C. & Tolk, N. (2012). Determination of optical damage cross-sections and volumes surrounding ion bombardment tracks in GaAs using coherent acoustic phonon spectroscopy, Journal of Applied Physics, 112 (1) DOI: 10.1063/1.4732072

Frisky firefly sex tape

Once the lights go out, female fireflies apparently prefer a little more substance and a little less flash. Infrared imaging and other techniques have been used to monitor firefly behaviour and to show that the females of the species tend to choose mates that they perceive as able to deliver a large “nuptial gift” a high protein sperm package that helps females produce more eggs.

The team used programmed LED lights to simulate male firefly flashes. The team exposed one group of females to a flash pattern that earlier research had shown was highly attractive to females; second group saw only “unattractive” flash patterns. They also divided the males into two groups: those who had a large spermatophore to present, the virgins, and the experienced old-timers who had a smaller package. They then used IR lamps to shed light on the antics of their frisky fireflies and DNA paternity testing to figure out which males were most successful after dark.

You can read more about the research in my 1st July infrared news story on SpectroscopyNOW.com

Drugs in drinking water

Rather bizarre extrapolations about the presence of the serotonin reuptake inhibitor Prozac in water and the development of "autism" in fish hit the headlines recently and were quickly debunked by science bloggers around the world. Nevertheless, the presence of pharmaceuticals in the water supply is an ongoing issue and has been during the last two decades of this authors reporting on the subject and for many years before that. It is important to know what drugs are present, in what quantities and whether any particular parts of the globe are affected more significantly than others.

Spanish researchers have tested tap drinking water for various drugs, both legal and illicit, in Europe, Japan and South America. Their analysis revealed the presence of caffeine, nicotine, cotinine, cocaine and its metabolite benzoylecgonine, methadone and its metabolite EDDP but only in ultratrace amounts at the detection limits of their instruments.

Drugs on tap: Ultratrace detection.

Hands off spectroscopy

A new dual laser approach to analysing chemicals shouldn’t require the sample to be prepped and placed in the spectrometer. The surface of a suspect package at an airport or a contaminated material in a medical or environmental setting could be “scanned” via a standoff approach using the new technique, according to research I discuss in the latest issue of SpectroscopyNOW.

Science, spectroscopy and stuff

My latest SpectroscopyNOW column goes live today. Four items: Cheminformatics and TB, laser spectroscopy and graphene, ‘shroom doom and enmeshed drugs.

Multivariate statistical data processing has been used to create a model from gas chromatography-mass spectrometry (GC-MS) data of metabolite profiles of the various types of Mycobacterium species tuberculosis (TB). The model could allow diagnosticians and biomedical researchers to quickly and easily distinguish between various infectious Mycobacterium species – TB news.

When graphene is stimulated optically it produces a photocurrent on a time scale of mere picoseconds. A German research team has now used the pump-probe method of time-resolved laser spectroscopy to take a snapshot of this process as it happens – Atomic Absorption and Atomic Spectroscopy Resource.

Nuclear magnetic resonance spectroscopy, mass spectrometry and other techniques have been used to demonstrate that the consumption of toxic mushrooms may have been responsible for a series of unexplained deaths in China during the last three decades – NMR and toxic toadstools.

X-ray computed tomography can be used to look closely at superhydrophobic polymer meshes. These experimental materials have been shown to trap drug molecules with a barrier of air between them and an external aqueous environment – Drug smugglers.

Latest spectroscopy and crystallography

Electric microbes – X-ray diffraction has been used to reveal the structure of proteins attached to the surface of the microbe Shewanella oneidensis, a species found in deep-sea anaerobic habitats. These proteins can transfer electrons making this micro-organism potentially rather interesting as an electricity-generating system. The research could allow researchers to tether bacteria directly to electrodes creating efficient microbial fuel cells or bio-batteries powered by human or animal waste. Such an advance could also hasten the development of system based on microbial agents that can clean up oil spills or provide a new approach to remediating radioactive waste.

Uranium and Raman – Scientists at the Indira Gandhi Centre for Atomic Research in Tamil Nadu have carried out the first study of "pure" uranium using Raman spectroscopy. The fundamental research offers new insights into this radioactive metal and may even have implication for developments in nuclear energy.

Magnetic resonance without magnets – US researchers have demonstrated magnet-free nuclear magnetic resonance, opening up the possibility of low-cost, portable chemical analysis. Writing in the journal Nature Physics, the team says that it is just the beginning for the development of zero-field NMR although the team has already demonstrated that it is possible to get, clear, highly specific spectra.

Aerobics and the elderly – Increased physical activity involving aerobic exercise might slow age-related decline according to a new functional magnetic resonance imaging (fMRI) and transcranial magnetic stimulation (TMS) study funded by the US Department of Veteran's Affairs. The study shows how the brain's motor cortex changes as we get older particularly in those people who become more sedentary as they do so. However, maintaining a physically active lifestyle can preclude the changes that lead to unnecessary decline.

Slipped disc gel – Viable nucleus pulposus (NP) implant materials for repairing damaged intervertebral discs, comprising novel hydrogels, have been developed and studied using the techniques of Fourier-transform infrared and nuclear magnetic resonance spectroscopy. Anyone who has suffered damage to an intervertebral disc in their spine or has a degenerative of the discs will know only too well how debilitating can be the attendant inflammation and pain caused by such damage and pressure on the sciatic, and other, nerves. Alleviating the pain to an extent is sometimes possible through spinal manipulation, physiotherapy, anti-inflammatory agents or surgery. However, there is a pressing need to develop artificial implants that can remedy the loss of the gelatinous filling to intervertebral discs as an alternative to simply removing damaged or diseased discs and fusing the vertebrae.

Maya blue – UV-Vis spectroscopy and various other techniques have been used to analyse the yellow pigments found in Mayan wall paintings. The compounds present are the indigoids, including isatin and dehydroindigo. The spectra together with SEM/EDX, TEM and voltammetry of microparticles show that this ancient people had the recipe for making indigo itself and converting it to Maya Blue and Maya Yellow in a stepwise reaction sequence.

Latest science news with a spectral twist

  • Romantic notes – Cassis base 345B, undecavertol, 1,3-oxathiane oxane, isospirene… Perfume can be so romantic! But the chemical components underpinning the often-enticing and seductive smells of fragrances are, one might say equal parts art and science. One of the most intriguing elements of several fragrances, including popular perfumes like Le monde est beau by Daniela Andrier and DKNY Be Delicious by Maurice Roucel is the fruity top note – blackcurrant.
  • Socioeconomic pollutants – How much socioeconomic factors affect exposure to persistent organic pollutants, especially during vulnerable periods of life such as pregnancy and childhood, is not yet well understood. A new study has investigated the relationship between maternal social class, based on occupation type, and placental concentrations of organochlorine pesticides (OCPs) and the combined estrogenic activity of analytes as revealed by a biomarker for exposure.
  • Heavy metal drugs – Metals and metalloid impurities are an increasing focus for pharmaceutical regulators anticipating high standards of QC/QA for pharmaceuticals with regard to efficacy and patient safety. A review by a team at Bristol-Myers Squibb assesses the various techniques available to the industry. The report offers insights into how these various applications can be used and ultimately how they might address concerns about metal toxicity in raw materials, intermediates, active pharmaceutical ingredients and final drug products.
  • Ancient minerals – The discovery of the oldest mineral in the solar system, krotite, found in an unusual refractory inclusion of the meteorite NWA 1934 from northwest Africa, provides an unprecedented look back into deep time to the first planetary materials formed in our solar system.

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