Larval-mass effect: Characterisation of heat emission by necrophageous blowflies (Diptera: Calliphoridae) larval aggregates.

Numerous Calliphoridae species larvae are necrophageous and develop on animal cadavers. During the feeding stages, a strong gregarious behaviour leads to the formation of large larval masses, allowing larvae to share digestive fluids. Furthermore, a mass of larvae emits heat, resulting in a local increase of temperature. Differences greater than 20°C between ambient and larval mass temperatures have already been observed, and the temperature of the mass can reach 50°C. Thus, larvae could benefit from this increased local temperature to speed up their development. This study focuses on the dynamic and characterisation of heat emission by Lucilia sericata (Diptera: Calliphoridae) (Meigen, 1826) larval masses. Experiments were performed under controlled conditions using several ambient temperatures and different numbers of larvae. Results indicate that heat emission depends on the instar and is strongly affected by available amount of food. Furthermore, according to the experimental data, the heat emission is also relative to the weight of the larval mass, the larvae number and the local temperature. These results also demonstrate that optimum ambient-temperature values ranging between 22°C and 25°C produce maximal heat-emission per larva. Furthermore, a feedback loop, involving heat exchanges and physiological and behavioural thermoregulation processes, appears inside aggregates. In the context of forensic cases and post-mortem interval (PMI) estimation, these results indicate that heat emission can occur even with "small" masses if they are composed of high number of second stage larvae. Furthermore, particular attention should be paid on cases involving L. sericata larvae at ambient temperature ranging from 22°C to 25°C, which appears to maximise the heat-emission process.

Methadone determination in puparia and its effect on the development of Lucilia sericata (Diptera, Calliphoridae).

This paper describes a sensitive UPLC-MS/MS method for quantification of methadone and 2-ethylidene-1,5-dimethyl-3,3-diphenylpyrrolidine (EDDP) in single empty puparial case of Lucilia sericata. Larvae were reared on substrates spiked with different concentrations of methadone (0-4 µg/g). Methadone was quantified in puparia reared on high concentrated substrates (0.8-4 µg/g). The major metabolite of methadone (EDDP) was not detected, confirming rapid elimination of metabolites by the larvae before pupation. The effects of methadone on the development of L. sericata were also investigated. No effect on sex ratio was detected. A significant difference was calculated for emerged adults but no trends could be observed. Concerning the developmental curve, a significant difference was observed between control and high methadone concentrations using the Kolmogorov-Smirnov test.

Entomotoxicology, experimental set-up and interpretation for forensic toxicologists.

Forensic entomotoxicology studies the usefulness of insects as alternative toxicological samples. Use of insects as alternative matrix for drug detection is well documented and recommended when conventional matrices such as blood, urine or internal organs are no longer available. However, several limitations of entomotoxicology have been highlighted, especially concerning interpretation of the drug concentrations in insects on human forensic cases. In addition, the lack of knowledge in pharmacokinetic of drugs in insects, large variability of experimental set-up and toxicological analysis compromise the utility of this science. This review focuses on the current knowledge of factors influencing drug detection in insects. Reasons for the current limitations, but also recommendations for future research are discussed and proposed in this paper.

Quantification of methadone and its metabolite 2-ethylidene-1,5-dimethyl-3,3-diphenylpyrrolidine in third instar larvae of Lucilia sericata (Diptera: Calliphoridae) using liquid chromatography-tandem mass spectrometry.

Entomotoxicology studies the application of toxicological analysis on necrophageous insects present on human remains. This paper describes the development and validation of a sensitive liquid chromatography tandem mass spectrometry method for quantification of methadone and its main metabolite, 2-ethylidene-1,5-dimethyl-3,3-diphenylpyrrolidine (EDDP), in developmental stages of Lucilia sericata. One single larva was pulverized in a disposable vial and then extracted with 1-chlorobutane. After evaporation of the organic layer, samples were reconstituted in the mobile phase. Chromatographic separation was achieved on a NUCLEODUR Sphinx RP column with a liquid chromatographic gradient (0.1% formic acid and methanol), ensuring the elution of methadone and EDDP within 15 min. The method was fully validated according to international guidelines. The use of liquid liquid extraction was demonstrated to be effective (matrix effect < 27% and recovery > 66%). The method was linear over the dynamic range (10-400 pg/mg larva) with excellent within- and between-run precision and bias (CV% < 5%). The lower limit of quantification was fixed at 10 pg/mg larva. No instability of the extracted samples was observed in the autosampler after three freeze/thaw cycles and after two months at -20 degrees C. The validated method was applied to third instar larvae of Lucilia sericata reared on beef heart spiked with 4 microg/g methadone and on a postmortem methadone overdose case. The validation and actual sample analysis showed that the method is sensitive, rugged, precise, accurate, and well-suited for routine analysis of methadone and EDDP in a single larva obtained from forensic cases.

Repellent effect of some household products on fly attraction to cadavers.

The most common task of a forensic entomologist is to determine an accurate minimum post-mortem interval (PMI) using necrophagous fly larvae found on carrion. More often, blowflies (Diptera: Calliphoridae) are the first insects to detect the cadaver and, if the circumstances are favourable, to leave eggs on the body. However, several studies reveal that products such as gas or paint found on the cadaver induce a delay in the colonisation of the body, leading to an under-estimate of the PMI. Six common household products (gas, mosquito citronella repellent, perfume, bleach, hydrochloric acid and soda) were added to dead rats (Rattus norvegicus) in a field (Lille Forensic Institute, France). The presence of necrophagous flies was checked at regular intervals during 1 month. This experiment was repeated at the same period for four consecutive years. Results clearly showed the repellent effect of three of the six tested substances: gas (petroleum spirit), perfume and mosquito citronella repellent, which resulted in a mean delay of several days in the appearance of the first Dipteran species. Experiments were then carried out in controlled conditions in order to confirm previous observations. An olfactometer was specially designed to observe the behaviour of female Calliphora vicina (Diptera: Calliphoridae) in response to mice (Mus musculus) cadaver odour stimuli combined with household products. Dead mouse odour was a strong attractive stimulus for most of the tested individuals. Furthermore, it was noticed that the presence of mosquito citronella repellent, perfume, hydrochloric acid and paradichlorobenzene produced a significant repellent effect on female flies. All these results together confirm the repellent effect of some household products on flies and the necessity for forensic entomologists to consider this hypothesis when estimating the PMI.

Effect of body length and temperature on the crawling speed of Protophormia terraenovae larvae (Robineau-Desvoidy) (Diptera Calliphoridae).

This work investigates variation in the crawling speed of Protophormia terraenovae larvae (Robineau-Desvoidy) (Diptera Calliphoridae) as a function of body length and ambient temperature. A video-tracking system was used to follow the movement of larvae in an experimental arena, and to estimate their average crawling speed. Recordings were carried out at various temperatures using larvae of different developmental stages. As temperature increased, the larvae crawled at a faster speed. Furthermore, speed increased as a function of body length. We present a general allometric relationship to express the average crawling speed of larvae as a combined function of temperature and body length, expressed in the following equation: speed (cm/min)=5.45 x log[length (mm)]+0.66 x temperature (degrees C)-12.8. These results are particularly useful in forensic entomology for estimating the time that elapsed following the larva's departure from the corpse. This information can provide more accuracy for post-mortem interval estimations and a better comprehension of larvae behaviour and displacement.

Cordylobia anthropophaga (Diptera: Calliphoridae) outside Africa: a case of furuncular myiasis in a child returning from Congo.

International travel to tropical countries accounts for an increasing incidence of imported diseases. An unusual case of furuncular myiasis due to Cordylobia anthropophaga (Blanchard) is reported in northern France in a 9-mo-old infant, after a 4-mo stay in Congo. A review has been made of the major cases of imported furuncular myiasis due to Cordylobia, as well as identification of second larval instars and management of the myiasis.

Entomofauna of buried bodies in northern France.

Autopsies of exhumed cadavers can reveal important evidence for clarification of medical insurance and social issues. This study concerns insects sampled on 22 exhumed cadavers in the Lille area. For each corpse, the species and the stages of development were noted, as well as the time elapsed after burial, the location of the cemetery, the stage of decay and possible preservation treatment. A total of eight Diptera and two Coleoptera species were sampled on the corpses. The relationships between entomofauna and conditions of burial are discussed. Three species were regularly found because of their preference for underground environments or closed environments: Conicera tibialis, typically associated with buried bodies, Leptocera caenosa which is known to be associated with human faeces, water closets, caves and cracked soil pipes, and Ophyra capensis, sometimes found on human bodies kept indoors for several months, where blowflies have not had access. Triphleba hyalinata, which is associated with human bodies in wooden coffins, was found only twice.

Flies eggs: a new method for the estimation of short-term post-mortem interval?

Three modeling methods were used to estimate the time for laying of Lucilia sericata eggs (Diptera, Calliphoridae) after measurements of hatching times at several constant temperatures. These models were tested first under controlled conditions with 19 profiles of fluctuating temperatures, and on the other hand under field conditions on mice. All three models were allowed to determine the time of laying within a period of about 2h, and consequently this determines the time of death, as this species lays immediately after death under favorable conditions. Rearing of eggs sampled on a corpse may therefore contribute to the determination of a short post-mortem interval (PMI).