“A tale of two leeches: Toward the understanding of the evolution and development of behavioral neural circuits” 

Dian_Han Kuo, Francisco F. De-Miguel, Elizabeth A. C. Heath-Heckman, Lidia Szczupak, Krista Todd, David Weisblat and Christopher J. Winchell (2020). Evolution and Development 22:471-493

“Phase-Specific Motor Efference during a Rhythmic Motor Pattern”

Ignacio Alonso, Agustín Sanchez  Merlinsky y Lidia Szczupak (2019).J Neurosci. 40:1888-1896.

“Feedback Signal from Motoneurons Influences a Rhythmic Pattern Generator” 

Horacio Rotstein, Elisa Schneider y Lidia Szczupak (2017). J Neurosci. 37:9149-9159.

“Functional contributions of electrical synapses in sensory and motor networks” 

Lidia Szczupak (2016). Current Opinion in Neurobiology 41:99-105.

 “Graded boosting of synaptic signals by low-threshold voltage-activated”

Martín Carbó Tano, María Eugenia Vilarchao y Lidia Szczupak (2015). J. Neurophys  114:332-340.

 “ Recurrent inhibition in motor systems, a comparative analysis” 

Szczupak, Lidia (2014). J Physiol Paris. 108:148-154

 “ Wide propagation of graded signals in nonspiking neurons” 

Sung Min Yang, María Eugenia Vilarchao, Lorena Rela y Lidia Szczupak( 2013). J. Neurophys  109:711-720.

 “ Effect of a Nonspiking Neuron on Motor Patterns of the Leech”

Mariano J. Rodriguez, Rodrigo Alvarez and Lidia Szczupak (2012). J. Neurophys  107: 1917-1924. 

“The activity of leech motoneurons during motor patterns is regulated by intrinsic properties and synaptic inputs”

C. Bernardo Perez-Etchegoyen, Rodrigo Alvarez, Mariano J. Rodriguez and Lidia Szczupak (2012). J. Comp. Physiol. 198:239-251.

“Calcium spikes in a leech nonspiking neuron” 

Lorena Rela, Sung Min Yang y Lidia Szczupak  (2009). J. Comp. Physiol. 195:139-150.

“ Premotor nonspiking neurons regulate coupling among motoneurons that innervated overlapping muscle fiber population”

Mariano Rodriguez, Carlos B. Etchegoyen y Lidia Szczupak (2009). J. Comp. Physiol. 95:491-500.

 “ Spatial-specific action of serotonin within the leech midbody ganglion”

María Ana Calviño y Lidia Szczupak (2008). J. Comp. Physiol. 194:523-531.

 “ In situ characterization of a rectifying electrical junction”

Lorena Rela y Lidia Szczupak  (2007). J. Neurophysiol 97:1405-1412.

“ Selective serotonin reuptake inhibitors induce spontaneous interneuronal activity in the leech nervous system” 

María Ana Calviño, Irene Iscla y Lidia Szczupak (2005). J Neurophysiol  93:2644-55

 “ Gap junctions: their importance for the dynamics of neural circuits”

Lorena Rela y Lidia Szczupak  (2004)

Molecular Neurobiology  30:341-57

 “ Electronic neuron within a ganglion of a leech (Hirudo medicinalis)”

J. Aliaga, N. Busca, V. Minces, G. B. Mindlin, B. Pando, A. Salles, and L. Sczcupak (2003) .Physical Review E 67, 061915.

“ Modulation of mechanosensory responses by motoneurons that regulate skin surface topology in the leech”

Mariano Rodriguez, Irene R. Iscla y Lidia Szczupak (2003). Journal of Neurophysiology 91:2366-2375.

 “ Convergence of Mechanosensory Inputs onto Neuromodulatory  Serotonergic Neurons  in the Leech”

N. Velázquez-Ulloa, S.E. Blackshaw, L. Szczupak, C. Trueta, E. García and F. F de Miguel (2003)

Journal of Neurobiology 54(4): 604-17.

 “ Coactivation of Motoneurons Regulated by a Network Combining Electrical and Chemical Synapses”

Lorena Rela and L. Szczupak (2003). Journal of Neuroscience 23:682-692.

 “ Network interactions among sensory neurons in the leech”

Antonia Marín-Burgin  and L. Szczupak (2003). Journal of Comparative Physiology [A] 189:59-67.

 “Processing of Sensory Signals by a Nonspiking Neuron in the Leech”

Antonia Marín Burgin and L. Szczupak (2000). Journal of Comparative Physiology [A] 186: 989-997. 

“ Differential Channeling of Sensory Input onto Motor Output in the Leech”

Irene Iscla, PedroD. Arini and L. Szczupak (1999). Journal of Comparative Physiology [A] 184 (2): 233-241.

 “Basal Acetylcholine Release in Leech Ganglia Depolarizes Neurons through Receptors with a Nicotinic Binding Site”

Antonia Marín Burgin and L. Szczupak (1998). Journal of Experimental Biology 201 (12):1907-1915.

“ Long-lasting Depolarization of Leech Neurons by the Central Action of Acetylcholine”

L. Szczupak, J. Edgar, M. L. Peralta  and W. B. Kristan Jr. (1998). Journal of Experimental Biology 201 (12):1895-1906.

“ Target tissues affect cellular properties of co-cultured leech Retzius neurons”

K. French, J. Murphy and L. Szczupak (1998). Journal of Neurobiology 34 (1):55-68. 

 “ Widespread mechanosensory activation of the serotonergic system of the medicinal leech”

L. Szczupak and W.B. Kristan (1995). Journal of Neurophysiology 74:2614-2624. 

 “ Segment-Specific Modulation of the Electrophysiological Activity of Retzius Neurons by Acetylcholine”

L. Szczupak; S. Jordan and W.B. Kristan (1993). J. Exp. Biol., 183:115-135.

“ Developmental Regulation of Segment-Specific Cholinergic Receptors on Retzius Neurons in the Medicinal Leech”

W.B. Kristan; K.A. French and L. Szczupak (1993). Journal of Neuroscience, 13(4): 1577-1587.