216 research outputs found
Subthreshold micropulse laser for long-lasting submacular fluid after rhegmatogeous retinal detachment surgery
Purpose: To assess the safety and efficacy of subthreshold micropulse laser (SML) photo-stimulation in the management of persistent subfoveal fluid (PSF) after surgery for rhegmatogenous retinal detachment (RRD). Methods: In this pilot study, 11 eyes of 11 patients (8 men, 3 women) with long-lasting (12–18 months) PSF after surgery for RRD were evaluated before and after photostimulation with subthreshold micropulse yellow laser. Ophthalmic examination included best-corrected visual acuity (BCVA), Amsler grid test, ophthalmoscopy, autofluorescence (AF), and optical coherence tomography (OCT) with measurement of central point foveal thickness (CPFT). Primary outcome was subfoveal fluid resolution and secondary outcome was BCVA improvement. Results: The mean CPFT and BCVA were, respectively, 436.8 ± 28.8 μm and 0.25 ± 0.1 µm decimal equivalent (DE) before photostimulation and 278 ± 54.4 μm and 0.57 ± 0.2 µm DE after photostimulation, a statistically significant difference (P < 0.001). Nine (81.8%) eyes showed improved BCVA, disappearance of macular detachment on ophthalmoscopy, reduced retinal pigment epithelium distress on AF, and restored macular profile with no neuroretinal alterations on OCT scans. Conclusion: Although PSF after RRD surgery is often a self-limiting disease, our results suggest that SML photostimulation may be effective and safe in patients with clinically significant long-lasting PSF. Larger case–control studies are necessary to confirm these results. © 2022 Esposti et al
Pest categorisation of Conotrachelus nenuphar
The EFSA Panel on Plant Health performed a pest categorisation of Conotrachelus nenuphar (Herbst)
(Coleoptera: Curculionidae), for the EU. C. nenuphar is a well-defined species, recognised as a serious
pest of stone and pome fruit in the USA and Canada where it also feeds on a range of other hosts
including soft fruit (e.g. Ribes, Fragaria) and wild plants (e.g. Crataegus). Adults, which are not good
flyers, feed on tender twigs, flower buds and leaves. Females oviposit into host fruit; if oviposition
occurs in young fruit, the fruit usually falls prematurely reducing yield; oviposition in older fruit causes
surface blemishes and the fruit distorts as it develops reducing marketability. Larvae develop within
host fruit but exit to pupate in soil. Adults overwinter in leaf litter. C. nenuphar is not known to occur
in the EU and is listed in Annex IAI of Council Directive 2000/29/EC. Fruit infested shortly before
harvest and soil with leaf litter accompanying plants for planting could potentially provide a pathway
into the EU. Considering the climatic similarities between North America and Europe, and that hosts
occur widely within the EU, C. nenuphar has potential to establish within the EU. There could be one
or two generations per year, as in North America. Impacts could be expected, e.g. in Prunus spp. and
apples. Phytosanitary measures are available to reduce the likelihood of introduction of C. nenuphar.
All of the criteria assessed by EFSA for consideration as a potential Union quarantine pest are met.
C. nenuphar does not meet the criteria of occurring in the EU nor plants for planting being the
principal means of spread. Hence it does not satisfy all of the criteria that are within the remit of EFSA
to assess for it to be regarded as a Union regulated non-quarantine pest (RNQP)
Pest categorisation of Sternochetus mangiferae
The European Commission requested EFSA to conduct a pest categorisation of Sternochetus mangiferae
(Coleoptera: Curculionidae), a monophagous pest weevil whose larvae exclusively feed on mango seeds,
whereas adults feed on mango foliage. S. mangiferae is a species with reliable methods available for
identification. It is regulated in the EU by Council Directive 2000/29/EC where it is listed in Annex IIB as a
harmful organism whose introduction into EU Protected Zones (PZ) (Alentejo, Algarve and Madeira in
Portugal, and Granada and Malaga in Spain) is banned. S. mangiferae is native to South East Asia and
has spread to other mango-growing areas in Africa, South America and Oceania, causing significant
damage. Larvae of S. mangiferae have been detected several times in mango fruit imported into the EU.
In 2013, an outbreak was declared in one PZ in Spain. Official measures taken achieved eradication,
which was officially declared in January 2018. The EFSA Plant Health Panel concludes that S. mangiferae
could establish again and spread in the mango-growing areas of southern EU. Considering the criteria
within the remit of EFSA to assess the status as a potential Union quarantine pest (QP), as a potential
protected zone quarantine pest (PZQP) or as a potential regulated non-quarantine pest (RNQP),
S. mangiferae meets with no uncertainties the criteria for consideration as a potential Union QP, as it is
absent from the EU, potential pathways for entry exist, and its establishment would cause an economic
impact. The criterion of the pest being present in the EU, which is a prerequisite for RNQP and PZ QP, is
not met
Pest categorisation of Acrobasis pirivorella
The European Commission requested EFSA to conduct a pest categorisation of Acrobasis pirivorella
(Lepidoptera: Pyralidae), a monophagous moth whose larvae exclusively feed on developing buds,
flowers, and fruits of cultivated and wild Pyrus spp. A. pirivorella is a species with reliable methods
available for identification. A. pirivorella occurs in north-east Asia only, causing significant damage in
cultivated pears. It is regulated in the EU by Council Directive 2000/29/EC where it is listed in Annex IIAI.
Within this regulation, plants for planting of Pyrus spp. is a closed pathway. This species has never been
reported by Europhyt. Fruits and cut branches of Pyrus spp. are open pathways. Biotic and abiotic
conditions are conducive for establishment and spread of A. pirivorella in the EU. Were A. pirivorella to
establish, impact on pear production is expected. Considering the criteria within the remit of EFSA to
assess its regulatory plant health status, A. pirivorella meets the criteria for consideration as a potential
Union quarantine pest (it is absent from the EU, potential pathways exist and its establishment would
cause an economic impact). Given that A. pirivorella is not known to occur in the EU, it fails to meet some
of the criteria required for regulated non-quarantine pest (RNQP) status
Pest categorisation of Aleurocanthus spp
The Panel on Plant Health performed a pest categorisation of
Aleurocanthus
spp., a well-de
fi
ned insect
genus of the white
fl
y family Aleyrodidae (Arthropoda: Hemiptera). Dif
fi
culties within the taxonomy of
the genus give doubt about the ability to accurately identify some members to species level.
Nevertheless, the genus is thought to currently include about ninety species mainly reported from
tropical and subtropical areas. The genus is listed in Council Directive 2000/29/EC and is regulated on
Citrus, Fortunella
and
Poncirus
. Several
Aleurocanthu
s species are highly polyphagous;
Aleurocanthu
s
spiniferus
has hosts in 38 plant families;
Aleurocanthu
s
woglumi
has more than 300 hosts including
Pyrus
,
Rosa
and
Vitis vinifera
as well as
Citrus
.
A. spiniferus
is present in the EU in restricted areas of
Italy and Greece, where it is under of
fi
cial control. No other
Aleurocanthus
spp. are known to occur in
the EU. Host plants for planting, excluding seeds, and cut
fl
owers or branches are the main pathways
for entry. Outside of the EU, the genus can be found in regions that have climate types which also
occur within the EU, suggesting establishment is possible.
Aleurocanthus
spp. can be signi
fi
cant pests
of crops that are also grown in the EU. Phytosanitary measures are available to reduce the likelihood
of entry into the EU, e.g. sourcing host plants for planting from pest free areas. As a genus
Aleurocanthus
does satisfy all the criteria that are within the remit of EFSA to assess and required by
risk managers to give it consideration as a Union quarantine pest.
Aleurocanthus
does not meet all of
the criteria to allow it consideration by risk managers as a Union regulated non-quarantine pest
(RNQP). Speci
fi
cally,
Aleurocanthus
is not widespread in the EU
Pest categorisation of Exomala orientalis
The EFSA Panel on Plant Health performed a pest categorisation of Exomala orientalis (Coleoptera:
Rutelidae) (Oriental beetle) for the EU. Larvae feed on the roots of a variety of hosts including most
grasses and many vegetable crops. Maize, pineapples, sugarcane are among the main host plants.
Larvae are particularly damaging to turfgrass and golf courses. The adults feed on flowers and other
soft plant tissues (e.g. Alcea rosea, Dahlia, Iris, Phlox and Rosa). Eggs are laid in the soil. Larvae feed
on host roots and overwinter in the soil. Adults emerge from pupae in the soil in May-June and are
present for about 2 months. E. orientalis usually completes its life cycle in 1 year although individuals
can spend two winters as larvae. Commission Implementing Regulation (EU) 2019/2072 (Annex IIA)
regulates E. orientalis. The legislation also regulates the import of soil attached to plants for planting
from third countries; therefore, entry of E. orientalis eggs, larvae and pupae is prevented. E. orientalis
is native to Japan or the Philippine islands. It is also found in East Asia and India, Hawaii and northeastern USA. It is assumed to have reached USA via infested nursery stock. Plants for planting
(excluding seeds) and cut flowers provide potential pathways for entry into the EU. E. orientalis has
been intercepted only once in the EU, on Ilex crenata bonsai. Climatic conditions and the availability of
host plants provide conditions to support establishment in the EU. Impacts on maize, grassland and
turfgrass would be possible. There is uncertainty on the extent of the impact on host plants which are
widely commercially grown (e.g. maize) Phytosanitary measures are available to reduce the likelihood
of entry. E. orientalis satisfies the criteria that are within the remit of EFSA to assess for it to be
regarded as a potential Union quarantine pest. Of the criteria that are within the remit of EFSA to
assess for it to be regarded as a potential Union regulated non-quarantine pest, E. orientalis does not
meet the criterion of occurring in the EU
Pest categorisation of Stagonosporopsis andigena.
The Panel on Plant Health performed a pest categorisation of Stagonosporopsis andigena, the causal
agent of black blight of potato, for the EU. The pest is a well-defined fungal species and reliable methods
exist for its detection and identification. S. andigena is present in Bolivia and Peru. The pest is not known
to occur in the EU and is listed in Annex IAI of Directive 2000/29/EC as Phoma andina, meaning its
introduction into the EU is prohibited. The major cultivated host is Solanum tuberosum (potato); other
tuber-forming Solanum species and wild solanaceous plants are also affected. All hosts and pathways of
entry of the pest into the EU are currently regulated. Host availability and climate matching suggest that
S. andigena could establish in parts of the EU and further spread mainly by human-assisted means. The
pest affects leaves, stems and petioles of potato plants causing lesions and premature leaf drop but not
the underground parts, including tubers. The disease causes yield reductions up to 80%, depending on
the susceptibility of potato cultivars. Early application of fungicide sprays and cultivation of resistant
potato cultivars are the most effective measures for disease management. The pest introduction in the
EU would potentially cause impacts to potato production. The main uncertainties concern the host range,
the maximum period the pest survives on host debris in soil, the maximum distance over which conidia of
the pest could be dispersed by wind-blown rain, and the magnitude of potential impacts to the EU.
S. andigena meets all the criteria assessed by EFSA for consideration as potential Union quarantine pest.
The criteria for considering S. andigena as a potential Union regulated non-quarantine pest are not met,
since the pest is not known to occur in the EU
Risk assessment of the entry of Pantoea stewartii subsp. stewartii on maize seed imported by the EU from the USA.
Following a request from the European Commission, the EFSA Panel on Plant Health performed a risk
assessment of the entry of Pantoea stewartii subsp. stewartii on maize seed imported by the EU from the
USA. This pest is a Gram-negative bacterium which causes Stewart’s vascular wilt and leaf blight of maize
(including sweet corn), a disease responsible for serious crop losses throughout the world. The following
scenarios were considered: scenario A0 (current practice), scenario A1 (US request for modification of EU
conditions for derogation), and scenario A2 (EU conditions for derogation). Results from the quantitative
seed pathway model presented here show that, despite the low rates of plant-to-seed and seed-toseedling
transmission that have been reported in the literature for Stewart’s wilt, given the amount of
traded seed, and in the case of voluntary (i.e. not mandatory) inspections of seed production fields at the
origin (i.e. scenario A0), the frequency of introducing the disease is in the order of magnitude of some
hundred introductions per year (median number). The EU conditions for derogation would lead to a
decrease in the likelihood of entry compared to scenarios A0 (about 10,000 times fewer introductions)
and A1 (about 2,000 times fewer introductions). This protective effect is mainly due to the requirement
that only genotypes resistant to Stewart’s wilt are traded, with the additional field inspection (two instead
of one per season) providing additional reassurance. The Panel also concluded that seed lot inspections,
as currently carried out (e.g. with a sample of 400 seeds) are not likely to lead to a relevant reduction in
the level of infected imported maize seed, given the low prevalence of Stewart’s wilt at the origin. If,
however, there is aggregation in infection among consignments, inspection would work towards
identifying the highly infected consignments. Recently, outbreaks of Stewart’s wilt have occurred in Italy
(Emilia Romagna, Friuli, Lombardy and Veneto). A review is provided of the available information to
assess the possible role of seed imports in these outbreaks
Pest categorisation of Scaphoideus luteolus
The Panel on Plant Health performed a pest categorisation of Scaphoideus luteolus, a well-defined
phloem sap-feeding insect species in the family Cicadellidae (Insecta: Hemiptera). It can be identified
using taxonomic keys. S. luteolus is only present in the eastern part of the USA. The main host plants of
S. luteolus are species of the genus Ulmus (U. americana, U. alata, U. bergmanianna, U. szechuanica,
U. rubra), but specimens have also been collected on Vitis sp., Salix sp. and Populus sp. The species does
not cause damage by itself, but it is the only confirmed vector of the phytoplasma Candidatus
Phytoplasma ulmi (CPu), which is present in North America where it causes heavy damage to the local
elms, as well as in some European countries where the local elms are considered less susceptible.
S. luteolus has three developmental stages (egg, nymph, adult). It overwinters in the egg stage, takes
36–42 days to complete nymphal stage, and adults are found throughout the summer period. Both
nymphs and adults are capable of transmitting CPu and, after acquiring the pathogen, remain infective
for the rest of their life. The main pathways are cut branches and plants for planting. These pathways are
not regulated for the main host, Ulmus, though requirements are in place in relation to other pests on
Ulmus. These pathways are also not regulated for Salix. Establishment would be favoured by the wide
coverage of Ulmus spp. in the EU territory and by climatic conditions comparable to those of the pest’s
native range. S. luteolus meets all the criteria assessed by EFSA for consideration as potential Union
quarantine pest. The criteria for considering it as a potential Union regulated non-quarantine pest are not
met since the species is absent from the EU
Pest categorisation of Cronartium harknessii, Cronartium kurilense and Cronartium sahoanum
Following a request from the European Commission, the EFSA Panel on Plant Health performed a pest
categorisation of Cronartium harknessii, Cronartium kurilense and Cronartium sahoanum, which are
well-defined and distinguishable tree fungal pathogens of the family Cronartiaceae. In 2018, these
species were moved from the genus Endocronartium to the genus Cronartium. These pathogens are
not known to be present in the EU and are regulated in Council Directive 2000/29/EC (Annex IAI) (as
non-European Endocronartium spp.) as harmful organisms whose introduction into the EU is banned.
These three fungi are autoecious rusts completing their life cycle on Pinus spp. C. harknessii is known
as the western gall rust or pine-pine gall rust in North America (Canada, the USA and Mexico).
C. kurilense and C. sahoanum are reported from Russia (North Kuril Islands) and Japan. The
pathogens could enter the EU via host plants for planting and cut branches. The pathogens could
establish in the EU, as climatic conditions are favourable and Pinus spp. are common. The pathogens
would be able to spread following establishment by movement of host plants for planting and cut
branches, as well as natural spread. Should these pathogens be introduced in the EU, impacts can be
expected on pine forests, plantations, ornamental trees and nurseries. The pathogens cause formation
of stem galls, which kill young trees and result in stem defect in older trees. The main knowledge gap
concerns the limited available information on C. kurilense and C. sahoanum compared to C. harknessii.
The criteria assessed by the Panel for consideration of C. harknessii, C. kurilense and C. sahoanum as
potential quarantine pests are met, whilst, for regulated non-quarantine pests, the criterion on the
pest presence in the EU is not met
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