Your search keyword '"Remi Klotz"' showing total 16 results

1. Single-cell multi-ome and immune profiles of the Inspiration4 crew reveal conserved, cell-type, and sex-specific responses to spaceflight

Author

JangKeun Kim, Braden T. Tierney, Eliah G. Overbey, Ezequiel Dantas, Matias Fuentealba, Jiwoon Park, S. Anand Narayanan, Fei Wu, Deena Najjar, Christopher R. Chin, Cem Meydan, Conor Loy, Begum Mathyk, Remi Klotz, Veronica Ortiz, Khiem Nguyen, Krista A. Ryon, Namita Damle, Nadia Houerbi, Laura I. Patras, Nathan Schanzer, Gwyneth A. Hutchinson, Jonathan Foox, Chandrima Bhattacharya, Matthew Mackay, Evan E. Afshin, Jeremy Wain Hirschberg, Ashley S. Kleinman, Julian C. Schmidt, Caleb M. Schmidt, Michael A. Schmidt, Afshin Beheshti, Irina Matei, David Lyden, Sean Mullane, Amran Asadi, Joan S. Lenz, Omary Mzava, Min Yu, Saravanan Ganesan, Iwijn De Vlaminck, Ari M. Melnick, Darko Barisic, Daniel A. Winer, Sara R. Zwart, Brian E. Crucian, Scott M. Smith, Jaime Mateus, David Furman, and Christopher E. Mason

Subjects

Science

Abstract

Abstract Spaceflight induces an immune response in astronauts. To better characterize this effect, we generated single-cell, multi-ome, cell-free RNA (cfRNA), biochemical, and hematology data for the SpaceX Inspiration4 (I4) mission crew. We found that 18 cytokines/chemokines related to inflammation, aging, and muscle homeostasis changed after spaceflight. In I4 single-cell multi-omics data, we identified a “spaceflight signature” of gene expression characterized by enrichment in oxidative phosphorylation, UV response, immune function, and TCF21 pathways. We confirmed the presence of this signature in independent datasets, including the NASA Twins Study, the I4 skin spatial transcriptomics, and 817 NASA GeneLab mouse transcriptomes. Finally, we observed that (1) T cells showed an up-regulation of FOXP3, (2) MHC class I genes exhibited long-term suppression, and (3) infection-related immune pathways were associated with microbiome shifts. In summary, this study reveals conserved and distinct immune disruptions occurring and details a roadmap for potential countermeasures to preserve astronaut health.

Published

2024

2. Collection of biospecimens from the inspiration4 mission establishes the standards for the space omics and medical atlas (SOMA)

Author

Eliah G. Overbey, Krista Ryon, JangKeun Kim, Braden T. Tierney, Remi Klotz, Veronica Ortiz, Sean Mullane, Julian C. Schmidt, Matthew MacKay, Namita Damle, Deena Najjar, Irina Matei, Laura Patras, J. Sebastian Garcia Medina, Ashley S. Kleinman, Jeremy Wain Hirschberg, Jacqueline Proszynski, S. Anand Narayanan, Caleb M. Schmidt, Evan E. Afshin, Lucinda Innes, Mateo Mejia Saldarriaga, Michael A. Schmidt, Richard D. Granstein, Bader Shirah, Min Yu, David Lyden, Jaime Mateus, and Christopher E. Mason

Subjects

Science

Abstract

Abstract The SpaceX Inspiration4 mission provided a unique opportunity to study the impact of spaceflight on the human body. Biospecimen samples were collected from four crew members longitudinally before (Launch: L-92, L-44, L-3 days), during (Flight Day: FD1, FD2, FD3), and after (Return: R + 1, R + 45, R + 82, R + 194 days) spaceflight, spanning a total of 289 days across 2021-2022. The collection process included venous whole blood, capillary dried blood spot cards, saliva, urine, stool, body swabs, capsule swabs, SpaceX Dragon capsule HEPA filter, and skin biopsies. Venous whole blood was further processed to obtain aliquots of serum, plasma, extracellular vesicles and particles, and peripheral blood mononuclear cells. In total, 2,911 sample aliquots were shipped to our central lab at Weill Cornell Medicine for downstream assays and biobanking. This paper provides an overview of the extensive biospecimen collection and highlights their processing procedures and long-term biobanking techniques, facilitating future molecular tests and evaluations.As such, this study details a robust framework for obtaining and preserving high-quality human, microbial, and environmental samples for aerospace medicine in the Space Omics and Medical Atlas (SOMA) initiative, which can aid future human spaceflight and space biology experiments.

Published

2024

3. Ectopic Expression of a Truncated Isoform of Hair Keratin 81 in Breast Cancer Alters Biophysical Characteristics to Promote Metastatic Propensity

Author

Diane S. Kang, Aidan Moriarty, Yiru Jess Wang, Amal Thomas, Jia Hao, Bret A. Unger, Remi Klotz, Shamim Ahmmed, Yonatan Amzaleg, Stuart Martin, Siva Vanapalli, Ke Xu, Andrew Smith, Keyue Shen, and Min Yu

Subjects

biophysical properties, breast cancer, circulating tumor cells, keratins, metastasis, truncated isoform, Science

Abstract

Abstract Keratins are an integral part of cell structure and function. Here, it is shown that ectopic expression of a truncated isoform of keratin 81 (tKRT81) in breast cancer is upregulated in metastatic lesions compared to primary tumors and patient‐derived circulating tumor cells, and is associated with more aggressive subtypes. tKRT81 physically interacts with keratin 18 (KRT18) and leads to changes in the cytosolic keratin intermediate filament network and desmosomal plaque formation. These structural changes are associated with a softer, more elastically deformable cancer cell with enhanced adhesion and clustering ability leading to greater in vivo lung metastatic burden. This work describes a novel biomechanical mechanism by which tKRT81 promotes metastasis, highlighting the importance of the biophysical characteristics of tumor cells.

Published

2024

4. Insights into brain metastasis: Recent advances in circulating tumor cell research

Author

Remi Klotz and Min Yu

Subjects

brain metastasis, circulating tumor cells, liquid biopsies, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background How tumor cells disseminate to brain and establish brain metastasis remains partly an unsolved problem. This devastating complication of many cancers is initiated by a rare subset of the circulating tumor cells (CTCs) shed into the blood stream. Thus, the profiling of the molecular properties in these brain metastasis‐initiating CTCs is essential to uncover the mechanisms underlying brain metastasis. Recent Findings Important efforts to improve the enrichment and detection of CTCs enabled the detailed molecular and functional analysis of CTCs that drive brain metastasis. In this review, we highlight key findings on existing preclinical studies that provide insights toward a comprehensive picture of brain metastasis‐precursors in CTCs and the potential clinical implications. Conclusion A deeper understanding of the brain metastasis precursors should help to stratify high‐risk patients and improve preventive therapeutic strategies. Although all these preclinical evidences have yet to be translated into patients, they provide considerable hope to benefit patients with brain metastases in the future.

Published

2022

5. Collection of Biospecimens from the Inspiration4 Mission Establishes the Standards for the Space Omics and Medical Atlas (SOMA)

Author

Christopher Mason, Eliah Overbey, Krista Ryon, JangKeun Kim Kim, Braden Tierney, Remi Klotz, Veronica Ortiz, Sean Mullane, Julian Schmidt, Matthew MacKay, Namita Damle, Deena Najjar, Irina Matei, Laura Patras, J. Sebastian Garcia Medina, Ashley Kleinman, Jeremy Hirschberg, Jacqueline Proszynski, Anand Narayanan, Caleb Schmidt, Evan Afshin, Lucinda Innes, Mateo Mejia Saldarriaga, Michael Schmidt, Richard Granstein, Bader Shirah, Min Yu, David Lyden, and Jaime Mateus

Subjects

Article

Abstract

The SpaceX Inspiration4 mission provided a unique opportunity to study the impact of spaceflight on the human body. Biospecimen samples were collected from the crew at different stages of the mission, including before (L-92, L-44, L-3 days), during (FD1, FD2, FD3), and after (R + 1, R + 45, R + 82, R + 194 days) spaceflight, creating a longitudinal sample set. The collection process included samples such as venous blood, capillary dried blood spot cards, saliva, urine, stool, body swabs, capsule swabs, SpaceX Dragon capsule HEPA filter, and skin biopsies, which were processed to obtain aliquots of serum, plasma, extracellular vesicles, and peripheral blood mononuclear cells. All samples were then processed in clinical and research laboratories for optimal isolation and testing of DNA, RNA, proteins, metabolites, and other biomolecules. This paper describes the complete set of collected biospecimens, their processing steps, and long-term biobanking methods, which enable future molecular assays and testing. As such, this study details a robust framework for obtaining and preserving high-quality human, microbial, and environmental samples for aerospace medicine in the Space Omics and Medical Atlas (SOMA) initiative, which can also aid future experiments in human spaceflight and space biology.

Published

2023

6. Supplementary Table S10 (xlsx) from Circulating Tumor Cells Exhibit Metastatic Tropism and Reveal Brain Metastasis Drivers

Author

Min Yu, Andrew D. Smith, Frank Attenello, Bodour Salhia, James Hicks, Aditya Bardia, Dejan Juric, Janice Lu, Wange Lu, Michael F. Press, Christopher Pinto, Charlotte S. Walmsley, Diane S. Kang, Grace Lee, Sathish Kumar Ganesan, Kevin J. Liu, Byoung-San Moon, Matthew MacKay, Negeen Izadian, Alan Wang, Sara Restrepo-Vassalli, Lin Li, Oihana Iriondo, Sung Min Han, Teng Teng, Amal Thomas, and Remi Klotz

Abstract

List of upregulated genes in CTC-derived brain metastases compare to other metastases (lung, bone and ovary)

Published

2023

7. Data from Circulating Tumor Cells Exhibit Metastatic Tropism and Reveal Brain Metastasis Drivers

Author

Min Yu, Andrew D. Smith, Frank Attenello, Bodour Salhia, James Hicks, Aditya Bardia, Dejan Juric, Janice Lu, Wange Lu, Michael F. Press, Christopher Pinto, Charlotte S. Walmsley, Diane S. Kang, Grace Lee, Sathish Kumar Ganesan, Kevin J. Liu, Byoung-San Moon, Matthew MacKay, Negeen Izadian, Alan Wang, Sara Restrepo-Vassalli, Lin Li, Oihana Iriondo, Sung Min Han, Teng Teng, Amal Thomas, and Remi Klotz

Abstract

Hematogenous metastasis is initiated by a subset of circulating tumor cells (CTC) shed from primary or metastatic tumors into the blood circulation. Thus, CTCs provide a unique patient biopsy resource to decipher the cellular subpopulations that initiate metastasis and their molecular properties. However, one crucial question is whether CTCs derived and expanded ex vivo from patients recapitulate human metastatic disease in an animal model. Here, we show that CTC lines established from patients with breast cancer are capable of generating metastases in mice with a pattern recapitulating most major organs from corresponding patients. Genome-wide sequencing analyses of metastatic variants identified semaphorin 4D as a regulator of tumor cell transmigration through the blood–brain barrier and MYC as a crucial regulator for the adaptation of disseminated tumor cells to the activated brain microenvironment. These data provide the direct experimental evidence of the promising role of CTCs as a prognostic factor for site-specific metastasis.Significance:Interests abound in gaining new knowledge of the physiopathology of brain metastasis. In a direct metastatic tropism analysis, we demonstrated that ex vivo–cultured CTCs from 4 patients with breast cancer showed organotropism, revealing molecular features that allow a subset of CTCs to enter and grow in the brain.This article is highlighted in the In This Issue feature, p. 1

Published

2023

8. Supplementary Tables from Circulating Tumor Cells Exhibit Metastatic Tropism and Reveal Brain Metastasis Drivers

Author

Min Yu, Andrew D. Smith, Frank Attenello, Bodour Salhia, James Hicks, Aditya Bardia, Dejan Juric, Janice Lu, Wange Lu, Michael F. Press, Christopher Pinto, Charlotte S. Walmsley, Diane S. Kang, Grace Lee, Sathish Kumar Ganesan, Kevin J. Liu, Byoung-San Moon, Matthew MacKay, Negeen Izadian, Alan Wang, Sara Restrepo-Vassalli, Lin Li, Oihana Iriondo, Sung Min Han, Teng Teng, Amal Thomas, and Remi Klotz

Abstract

Includes supplementary tables S1, S2, S5, S6, S7 and S9

Published

2023

9. Supplementary Figures from Circulating Tumor Cells Exhibit Metastatic Tropism and Reveal Brain Metastasis Drivers

Author

Min Yu, Andrew D. Smith, Frank Attenello, Bodour Salhia, James Hicks, Aditya Bardia, Dejan Juric, Janice Lu, Wange Lu, Michael F. Press, Christopher Pinto, Charlotte S. Walmsley, Diane S. Kang, Grace Lee, Sathish Kumar Ganesan, Kevin J. Liu, Byoung-San Moon, Matthew MacKay, Negeen Izadian, Alan Wang, Sara Restrepo-Vassalli, Lin Li, Oihana Iriondo, Sung Min Han, Teng Teng, Amal Thomas, and Remi Klotz

Abstract

File includes supplementary figures S1 to S5

Published

2023

10. Spaceflight alters insulin and estrogen signaling pathways

Author

Begum Aydogan Mathyk, Marshall Tabetah, Rashid Karim, Victoria Zaksas, JangKeun Kim, Anu I, Masafumi Muratani, Alexia Tasoula, Ruth Singh, Yen-Kai Chen, Eliah Overbey, Jiwoon Park, Davide Povero, Joseph Borg, Remi Klotz, Min Yu, Steven Young, Christopher Mason, Nathaniel Szewczyk, Riley St Clair, Fathi Karouia, and Afshin Beheshti

Abstract

Organismal adaptations to spaceflight have been characterized at the molecular level in model organisms, including Drosophila and C. elegans. Here we extend molecular work to energy metabolism and sex hormone signaling in mice and humans. We found spaceflight-induced changes in insulin and estrogen signaling in rodents and humans. Murine changes were most prominent in the liver, where we observed inhibition of insulin and estrogen receptor signaling with concomitant hepatic insulin resistance and steatosis. Based on the metabolic demand, metabolic pathways mediated by insulin and estrogen vary among muscles, specifically between the soleus and extensor digitorum longus. In humans, spaceflight induced changes in insulin and estrogen related genes and pathways. Pathway analysis demonstrated spaceflight-induced changes in insulin resistance, estrogen signaling, stress response, and viral infection. These data strongly suggest the need for further research on the metabolic and reproductive endocrinologic effects of space travel, if we are to become a successful interplanetary species

Published

2023

11. Circulating Tumor Cells Exhibit Metastatic Tropism and Reveal Brain Metastasis Drivers

Author

Charlotte S. Walmsley, Negeen Izadian, Bodour Salhia, Sathish Kumar Ganesan, Diane Kang, Min Yu, Michael F. Press, Sung Min Han, Sara Restrepo-Vassalli, Janice Lu, Byoung-San Moon, Alan Wang, Remi Klotz, Grace Lee, Teng Teng, Christopher J. Pinto, Lin Li, Oihana Iriondo, Amal Thomas, Dejan Juric, Aditya Bardia, Matthew MacKay, Kevin Liu, James W. Hicks, Wange Lu, Frank J. Attenello, and Andrew D. Smith

Subjects

0301 basic medicine, SEMA4D, Apoptosis, Breast Neoplasms, Mice, SCID, Semaphorins, Article, Metastasis, Proto-Oncogene Proteins c-myc, Mice, 03 medical and health sciences, Glutathione Peroxidase GPX1, 0302 clinical medicine, Circulating tumor cell, Breast cancer, Antigens, CD, Mice, Inbred NOD, Biopsy, Biomarkers, Tumor, Tumor Cells, Cultured, Tumor Microenvironment, medicine, Animals, Humans, Tropism, Cell Proliferation, Glutathione Peroxidase, medicine.diagnostic_test, Brain Neoplasms, business.industry, Neoplastic Cells, Circulating, medicine.disease, Xenograft Model Antitumor Assays, Gene Expression Regulation, Neoplastic, Oxidative Stress, 030104 developmental biology, Oncology, Blood-Brain Barrier, 030220 oncology & carcinogenesis, Cancer research, Female, business, Ex vivo, Brain metastasis

Abstract

Hematogenous metastasis is initiated by a subset of circulating tumor cells (CTC) shed from primary or metastatic tumors into the blood circulation. Thus, CTCs provide a unique patient biopsy resource to decipher the cellular subpopulations that initiate metastasis and their molecular properties. However, one crucial question is whether CTCs derived and expanded ex vivo from patients recapitulate human metastatic disease in an animal model. Here, we show that CTC lines established from patients with breast cancer are capable of generating metastases in mice with a pattern recapitulating most major organs from corresponding patients. Genome-wide sequencing analyses of metastatic variants identified semaphorin 4D as a regulator of tumor cell transmigration through the blood–brain barrier and MYC as a crucial regulator for the adaptation of disseminated tumor cells to the activated brain microenvironment. These data provide the direct experimental evidence of the promising role of CTCs as a prognostic factor for site-specific metastasis. Significance: Interests abound in gaining new knowledge of the physiopathology of brain metastasis. In a direct metastatic tropism analysis, we demonstrated that ex vivo–cultured CTCs from 4 patients with breast cancer showed organotropism, revealing molecular features that allow a subset of CTCs to enter and grow in the brain. This article is highlighted in the In This Issue feature, p. 1

Published

2020

12. Insights into brain metastasis: Recent advances in circulating tumor cell research

Author

Remi Klotz and Min Yu

Subjects

Cancer Research, business.industry, Brain Neoplasms, Tumor cells, Cell Count, medicine.disease, Neoplastic Cells, Circulating, Circulating tumor cell, Oncology, medicine, Cancer research, Humans, business, Blood stream, Brain metastasis

Abstract

Background How tumor cells disseminate to brain and establish brain metastasis remains partly an unsolved problem. This devastating complication of many cancers is initiated by a rare subset of the circulating tumor cells (CTCs) shed into the blood stream. Thus, the profiling of the molecular properties in these brain metastasis-initiating CTCs is essential to uncover the mechanisms underlying brain metastasis. Recent findings Important efforts to improve the enrichment and detection of CTCs enabled the detailed molecular and functional analysis of CTCs that drive brain metastasis. In this review, we highlight key findings on existing preclinical studies that provide insights toward a comprehensive picture of brain metastasis-precursors in CTCs and the potential clinical implications. Conclusion A deeper understanding of the brain metastasis precursors should help to stratify high-risk patients and improve preventive therapeutic strategies. Although all these preclinical evidences have yet to be translated into patients, they provide considerable hope to benefit patients with brain metastases in the future.

Published

2020

13. PIC&RUN: An integrated assay for the detection and retrieval of single viable circulating tumor cells

Author

Oihana Iriondo, Mohamed Kamal, Yonatan Amzaleg, Shahin Saremi, Irene Kang, Varsha Tulpule, Julie E. Lang, Remi Klotz, Min Yu, and Yvonne Chairez

Subjects

Adult, 0301 basic medicine, Computer science, lcsh:Medicine, Breast Neoplasms, Cell Count, Immune markers, Cell Separation, Computational biology, Cellular level, Article, Metastasis, 03 medical and health sciences, Negative selection, Breast cancer, 0302 clinical medicine, Circulating tumor cell, Biological property, Biomarkers, Tumor, Tumor Cells, Cultured, Humans, Liquid biopsy, Author Correction, lcsh:Science, Aged, Multidisciplinary, Gene Expression Profiling, Positive selection, lcsh:R, Disease progression, Middle Aged, Neoplastic Cells, Circulating, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Case-Control Studies, 030220 oncology & carcinogenesis, Female, lcsh:Q, Single-Cell Analysis

Abstract

Circulating tumor cells (CTCs) shed from solid tumors can serve as a minimally invasive liquid biopsy for monitoring disease progression. Because CTCs are rare and heterogeneous, their biological properties need to be investigated at the single cell level, which requires efficient ways to isolate and analyze live single CTCs. Current methods for CTC isolation and identification are either performed on fixed and stained cells or need multiple procedures to isolate pure live CTCs. Here, we used the AccuCyte-RareCyte system to develop a Protocol for Integrated Capture and Retrieval of Ultra-pure single live CTCs using Negative and positive selection (PIC&RUN). The positive selection module of PIC&RUN identifies CTCs based on detection of cancer surface markers and exclusion of immune markers. Combined with a two-step cell picking protocol to retrieve ultrapure single CTCs, the positive selection module is compatible for downstream single cell transcriptomic analysis. The negative selection module of PIC&RUN identifies CTCs based on a live cell dye and the absence of immune markers, allowing retrieval of viable CTCs that are suitable for ex vivo culture. This new assay combines the CTC capture and retrieval in one integrated platform, providing a valuable tool for downstream live CTC analyses.

Published

2019

14. Daily socket comfort in transtibial amputee with a vacuum-assisted suspension system: study protocol of a randomized, multicenter, double-blind multiple N-of-1 trial

Author

Rémi Klotz, Guilhem Emile, Jean-Christophe Daviet, Mathieu De Sèze, Julien Godet, Renaud Urbinelli, and Agata Krasny-Pacini

Subjects

Amputation, Elevated vacuum, Vacuum-assisted suspension, Active vacuum, Prosthetic suspension system, N-of-1 Trial, Sports medicine, RC1200-1245

Abstract

Abstract Background The main aim of this paper is to present the feasibility of rigorously designed multiple N-of-1 design in prosthetics research. While research of adequate power and high quality is often lacking in rehabilitation, N-of-1 trials can offer a feasible alternative to randomized controlled group trials, both increasing design power at group level and allowing a rigorous, statistically confirmed evaluation of effectiveness at a single patient level. The paper presents a multiple N-of-1 trial protocol, which aim is to evaluate the effectiveness of Unity, a prosthetic add-on suspension system for amputees, on patient-reported comfort during daily activities (main outcome measure), prosthesis wearing time, perception of limb-prosthesis fitting and stump volume and functional walking parameters. Methods Multicenter, randomized, prospective, double-blind multiple N-of-1 trial using an introduction/withdrawal design alternating Unity connected/disconnected phases of randomized length on twenty patients with unilateral transtibial amputation. The primary outcome measure is the Prosthetic Socket Comfort Score (SCS), a validated measure of comfort, administered daily by an phone app designed for the study. Secondary outcomes measures will be collected during the 50 days period of the N-of-1 trial: (1) by the same app, daily for patient-reported limb-prosthesis fitting, stump volume variation, and daily wearing time of the prosthesis; (2) by a pedometer for the number of steps per day; (3) by blind assessors in the rehabilitation center during adjustment visits for functional walking parameter (L-Test, 6-minute walk test), and by the patient for the QUEST, and ABC-S. Effectiveness of the Unity system regarding SCS and daily secondary outcome measures will be tested by randomization test. The secondary outcome measures assessed during visits in the rehabilitation center will be analyzed by Non Overlap of All pairs. An estimate of the effect on the amputee population will be generated by aggregating each individual clinical trial (N-of-1 trial) by Hierarchical Bayesian methods. Discussion This study protocol was designed to answer the question “which device is best for THIS patient" and to conclude at a group level on the effectiveness of a new devic, using a Multiple N-of-1 trial, which is promising but underused in prosthetics research so far. Trial registration N° ID-RCB 2020-A01309-30 Clintrial.gov : NCT04804150 - Retrospectively registered March 20th 2021.

Published

2023

15. Author Correction: PIC&RUN: An integrated assay for the detection and retrieval of single viable circulating tumor cells

Author

Remi Klotz, Min Yu, Oihana Iriondo, Yonatan Amzaleg, Shahin Saremi, Julie E. Lang, Yvonne Chairez, Varsha Tulpule, Mohamed Kamal, and Irene Kang

Subjects

Multidisciplinary, Circulating tumor cell, Chemistry, lcsh:R, Cancer research, lcsh:Medicine, lcsh:Q, lcsh:Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

16. Intuitive movement-based prosthesis control enables arm amputees to reach naturally in virtual reality

Author

Effie Segas, Sébastien Mick, Vincent Leconte, Océane Dubois, Rémi Klotz, Daniel Cattaert, and Aymar de Rugy

Subjects

prosthesis control, virtual reality, artificial intelligence, artificial neural network, Medicine, Science, Biology (General), QH301-705.5

Abstract

Impressive progress is being made in bionic limbs design and control. Yet, controlling the numerous joints of a prosthetic arm necessary to place the hand at a correct position and orientation to grasp objects remains challenging. Here, we designed an intuitive, movement-based prosthesis control that leverages natural arm coordination to predict distal joints missing in people with transhumeral limb loss based on proximal residual limb motion and knowledge of the movement goal. This control was validated on 29 participants, including seven with above-elbow limb loss, who picked and placed bottles in a wide range of locations in virtual reality, with median success rates over 99% and movement times identical to those of natural movements. This control also enabled 15 participants, including three with limb differences, to reach and grasp real objects with a robotic arm operated according to the same principle. Remarkably, this was achieved without any prior training, indicating that this control is intuitive and instantaneously usable. It could be used for phantom limb pain management in virtual reality, or to augment the reaching capabilities of invasive neural interfaces usually more focused on hand and grasp control.

Published

2023