Matthew Parry scite author profile

Huntington's disease (HD) is caused by Huntingtin (Htt) gene mutation resulting in the loss of striatal GABAergic neurons and motor functional deficits. We report here an in vivo cell conversion technology to reprogram striatal astrocytes into GABAergic neurons in both R6/2 and YAC128 HD mouse models through AAV-mediated ectopic expression of NeuroD1 and Dlx2 transcription factors. We found that the astrocyte-to-neuron (AtN) conversion rate reached 80% in the striatum and >50% of the converted neurons were DARPP32 + medium spiny neurons. The striatal astrocyte-converted neurons showed action potentials and synaptic events, and projected their axons to the targeted globus pallidus and substantia nigra in a time-dependent manner. Behavioral analyses found that NeuroD1 and Dlx2-treated R6/2 mice showed a significant extension of life span and improvement of motor functions. This study demonstrates that in vivo AtN conversion may be a disease-modifying gene therapy to treat HD and other neurodegenerative disorders.

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Patient Perspectives on Artificial Intelligence in Healthcare Decision Making: A Multi-Center Comparative Study

Parry

Markowitz

Nordberg

et al. 2023

JOIO

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Objective Investigate the patient opinion on the use of Artificial Intelligence (AI) in Orthopaedics. Methods 397 orthopaedic patients from a large urban academic center and a rural health system completed a 37-component survey querying patient demographics and perspectives on clinical scenarios involving AI. An average comfort score was calculated from thirteen Likert-scale questions (1, not comfortable; 10, very comfortable). Secondary outcomes requested a binary opinion on whether it is acceptable for patient healthcare data to be used to create AI (yes/no) and the impact of AI on: orthopaedic care (positive/negative); healthcare cost (increase/decrease); and their decision to refuse healthcare if cost increased (yes/no). Bivariate and multivariable analyses were employed to identify characteristics that impacted patient perspectives. Results The average comfort score across the population was 6.4, with significant bivariate differences between age ( p = 0.0086), gender ( p = 0.0001), education ( p = 0.0029), experience with AI/ML ( p < 0.0001), survey format ( p < 0.0001), and four binary outcomes ( p < 0.05). When controlling for age and education, multivariable regression identified significant relationships between comfort score and experience with AI/ML ( p = 0.0018) and each of the four binary outcomes ( p < 0.05). In the final multivariable model gender, survey format, perceived impact of AI on orthopaedic care, and the decision to refuse care if it were to increase cost remained significantly associated with the average AI comfort score ( p < 0.05). Additionally, patients were not comfortable undergoing surgery entirely by a robot with distant physician supervision compared to close supervision. Conclusion The orthopaedic patient appears comfortable with AI joining the care team.

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Physician Perspectives on Telemedicine at an Integrated Health System During the COVID-19 Pandemic

Luciani

Parry

Udoeyo

et al. 2023

Telemedicine and e-Health

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Patterns of Misdiagnosis and Discordance in Detecting Osteoporosis

Aynaszyan¹,

Devia²,

Parry³

et al. 2023

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Objective: This study aims to identify the prevalence of osteoporosis (OP) by lumbar computed tomography (CT) Hounsfield units (HUs) in patients who have normal or osteopenic bone determined by dual-energy x-ray absorptiometry (DEXA).Summary of Background Data: OP is a critical issue in the postmenopausal and aging population. Bone mineral density assessment by DEXA has been described as insensitive for diagnosing OP in the lumbar spine. Improving the detection of OP can bring more patients to treatment and reduce the risks associated with low bone mineral density. Patients and Methods:We retrospectively reviewed all patients with DEXA scans and noncontrast CTs of the lumbar spine over a 15-year period. Patients were diagnosed as non-OP if they had a normal DEXA T-score ( ≥ −1) or osteopenic DEXA T-score (between −1.1 and −2.4). Patients in this cohort were considered osteoporotic by CT if L1-HU ≤ 110. Demographics and lumbar HUs were compared between these stratified groups.Results: A total of 74 patients were included for analysis. All patients were demographically, similar, and the average patient age was 70 years. The prevalence of OP determined by CT L1-HU ≤ 110 was 46% (normal DEXA: 9%, osteopenic DEXA: 63%). A significant number of males in our study were considered osteoporotic by L1-HU ≤ 110 (74%, P = 0.03). All individual axial and sagittal lumbar HU measurements including L1-L5 average lumbar HUs were statistically significant among non-OP and OP groups except for the lower lumbar levels (P > 0.05 for L4 axial HUs, and L4-L5 sagittal HUs). Conclusions:The prevalence of OP in patients with normal or osteopenic T-scores is high. Among those with osteopenia by DEXA, more than 50% may lack appropriate medical treatment. The DEXA scan may be particularly insensitive to male bone quality making the CT HU the diagnostic method of choice for detecting OP.

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Matthew Parry

Gene therapy conversion of striatal astrocytes into GABAergic neurons in mouse models of Huntington’s disease

Patient Perspectives on Artificial Intelligence in Healthcare Decision Making: A Multi-Center Comparative Study

Physician Perspectives on Telemedicine at an Integrated Health System During the COVID-19 Pandemic

Patterns of Misdiagnosis and Discordance in Detecting Osteoporosis

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