Daniel J. Plummer scite author profile

This study was conducted to determine the likelihood of the development of a new ocular inflammatory syndrome (immune recovery vitritis, IRV), which causes vision loss in AIDS patients with cytomegalovirus (CMV) retinitis, who respond to highly active antiretroviral therapy (HAART). We followed 30 HAART-responders with CD4 cell counts of >/=60 cells/mm3. Patients were diagnosed with IRV if they developed symptomatic vitritis of >/=1+ severity associated with inactive CMV retinitis. Symptomatic IRV developed in 19 (63%) of 30 patients and in 26 (59%) of 44 eyes over a median follow-up from HAART response of 13.5 months. The annual incidence of IRV was 83/100 person-years. Excluding patients with previous cidofovir therapy did not significantly alter the time course of IRV (P=.79). These data suggest that IRV develops in a significant number of HAART-responders with CMV retinitis and is unrelated to previous cidofovir therapy.

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Color from invisible flicker: a failure of the Talbot–Plateau law caused by an early ‘hard’ saturating nonlinearity used to partition the human short-wave cone pathway

Stockman

Plummer

1998

Vision Research

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The Talbot-Plateau law fails for flicker detected by the short-wavelength-sensitive (S) cones: a 30-40 Hz target, flickering too fast for the flicker to be resolved, looks more yellow than a steady target of the same average intensity. The color change, which is produced by distortion at an early compressive nonlinearity, was used to reveal a slightly bandpass S-cone temporal response before the distortion site and a lowpass response after it. The nonlinearity is probably a 'hard' nonlinearity that arises because the S-cone signal is limited by a response ceiling, which the mean signal level approaches and exceeds as the S-cone adaptation level increases. The nonlinearity precedes the combination of flicker signals from all three cone types.

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Spectrally opponent inputs to the human luminance pathway: slow +M and −L cone inputs revealed by intense long‐wavelength adaptation

Stockman¹,

Plummer²,

Montag³

2005

The Journal of Physiology

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The nature of the inputs to achromatic luminance flicker perception was explored psychophysically by measuring middle-(M-) and long-wavelength-sensitive (L-) cone modulation sensitivities, M-and L-cone phase delays, and spectral sensitivities as a function of temporal frequency. Under intense long-wavelength adaptation, the existence of multiple luminance inputs was revealed by substantial frequency-dependent changes in all three types of measure. Fast (f) and slow (s) M-cone input signals of the same polarity (+sM and +fM) sum at low frequencies, but then destructively interfere near 16 Hz because of the delay between them. In contrast, fast and slow L-cone input signals of opposite polarity (−sL and +fL) cancel at low frequencies, but then constructively interfere near 16 Hz. Although these slow, spectrally opponent luminance inputs (+sM and −sL) would usually be characterized as chromatic, and the fast, non-opponent inputs (+fM and +fL) as achromatic, both contribute to flicker photometric nulls without producing visible colour variation. Although its output produces an achromatic percept, the luminance channel has slow, spectrally opponent inputs in addition to the expected non-opponent ones. Consequently, it is not possible in general to silence this channel with pairs of 'equiluminant' alternating stimuli, since stimuli equated for the non-opponent luminance mechanism (+fM and +fL) may still generate spectrally opponent signals (+sM and +sL).

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Immune Recovery Vitritis and Uveitis in Aids

Karavellas

Azen

Macdonald

et al. 2001

Retina

129

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Symptomatic IRV or IRU develops in a significant number of patients with CMV retinitis following successful HAART. Eyes with CMV surface area >30% of the retina are at the greatest risk. Eyes with IRV respond favorably to antiinflammatory therapy without reactivation of retinitis. Immune recovery vitritis may be the result of an immunologic reaction to latent CMV antigens in the eye in which T-lymphocytes play a role.

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Daniel J. Plummer

Incidence of Immune Recovery Vitritis in Cytomegalovirus Retinitis Patients following Institution of Successful Highly Active Antiretroviral Therapy

Color from invisible flicker: a failure of the Talbot–Plateau law caused by an early ‘hard’ saturating nonlinearity used to partition the human short-wave cone pathway

Spectrally opponent inputs to the human luminance pathway: slow +M and −L cone inputs revealed by intense long‐wavelength adaptation

Immune Recovery Vitritis and Uveitis in Aids

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