Abstract

The present project is an outgrowth of our long-range research program concerned with the elucidation of neuroendocrine phenomena on a comparative basis. Our experimental invertebrate model of choice is the insect Leucophaea maderae. Initially having been focused on the special status of neurohormone-producing neurosecretory cells, the study now includes the analysis of a growing number of additional peptidergic neurons. Their immunocytochemical characterization by use of polyclonal antibodies is still in progress. The main objective of the present program is to carry the search for chemical specificity further by screening tests with monoclonal antibodies addressing the entire spectrum of neurotypes existing in this insect. The rationale for the intended use of monoclonal antibodies raised against mammalian antigens is twofold: (a) The information available from tests with this new class of markers on the remarkable chemical individuality in the nervous system of vertebrates will provide guidelines for the chemical characterization of the insect neurons under investigation. (b) Reactivity of neural structures of insects with mammalian monoclonal antibodies may provide us with additional and principally significant insights regarding the evolutionary history of neurotypes and neuron-specific molecules, and the evolvement of heterogeneous organelles such as neurofilaments.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS022344-03
Application #
3404583
Study Section
Tropical Medicine and Parasitology Study Section (TMP)
Project Start
1985-09-01
Project End
1988-11-30
Budget Start
1987-12-01
Budget End
1988-11-30
Support Year
3
Fiscal Year
1988
Total Cost
Indirect Cost

  Institution

Name
Albert Einstein College of Medicine
Department
Type
Schools of Medicine
DUNS #
009095365
City
Bronx
State
NY
Country
United States
Zip Code
10461

  Publications

Peckham, P Hunter; Kilgore, Kevin L; Keith, Michael W et al. (2002) An advanced neuroprosthesis for restoration of hand and upper arm control using an implantable controller. J Hand Surg Am 27:265-76
Memberg, W D; Murray, W M; Ringleb, S I et al. (2001) A transducer to measure isometric elbow moments. Clin Biomech (Bristol, Avon) 16:918-20
Lauer, R T; Kilgore, K L; Peckham, P H et al. (1999) The function of the finger intrinsic muscles in response to electrical stimulation. IEEE Trans Rehabil Eng 7:19-26
Kilgore, K L; Lauer, R T; Peckham, P H (1998) A transducer for the measurement of finger joint moments. IEEE Trans Rehabil Eng 6:424-9
Lemay, M A; Crago, P E (1997) Closed-loop wrist stabilization in C4 and C5 tetraplegia. IEEE Trans Rehabil Eng 5:244-52
Esteki, A; Mansour, J M (1997) A dynamic model of the hand with application in functional neuromuscular stimulation. Ann Biomed Eng 25:440-51
Van Doren, C L (1997) Contours of equal perceived amplitude and equal perceived frequency for electrocutaneous stimuli. Percept Psychophys 59:613-22
Lemay, M A; Crago, P E; Keith, M W (1996) Restoration of pronosupination control by FNS in tetraplegia--experimental and biomechanical evaluation of feasibility. J Biomech 29:435-42
Esteki, A; Mansour, J M (1996) An experimentally based nonlinear viscoelastic model of joint passive moment. J Biomech 29:443-50
Lemay, M A; Crago, P E (1996) A dynamic model for simulating movements of the elbow, forearm, an wrist. J Biomech 29:1319-30

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