Linshom Publications

Harvard:  

Linshom thermodynamic sensor is a reliable alternative to capnography for monitoring respiratory rate. 

David Preiss| Benjamin A. Drew| James Gosnell| Bhavani S. Kodali1| James H. Philip| Richard D. Urman


University of Mississippi:

Tracking tidal volume noninvasively in volunteers using a tightly controlled temperature‐based device: A proof of concept paper.

Sathyamoorthy M, Lerman J, Amolenda PG, et al. Tracking tidal volume noninvasively in volunteers using a tightly controlled temperature-based device: A proof of concept paper.

Clin Respir J. 2019;00:1–7.

Cleveland Clinic: Novel device for monitoring respiratory rate during endoscopy-thermodynamic sensor (pdf)Download
Linshom respiratory monitoring device: a novel temperature-based respiratory monitor (pdf)Download

Additional Publications

 

Perman  SM, Stanton E, Soar J, et al. Location of in-hospital cardiac arrest in the  united states - variability in event rate and outcomes. Journal  of the American Heart Association. 2016;5(10):pii:  e003638.  


Morrison  LJ, Neumar RW, Zimmerman JL, et al. Strategies for improving survival after  in-hospital cardiac arrest in the United States: 2013 consensus recommendations:  a consensus statement from the American Heart  Association. Circulation. 2013;127(14):1538-1563. 


Andersen  LW, Berg KM, Chase M, et al. Acute respiratory compromise on inpatient wards in  the United States: Incidence, outcomes, and factors associated with in-hospital  mortality. Resuscitation. 2016;105:123-129. 


DeVita  MA, Smith GB, Adam SK, et al. "Identifying the hospitalised patient in crisis" -  a consensus conference on the afferent limb of rapid response  systems. Resuscitation. 2010;81:375-382. 


Taenzer  AH, Pyke JB, McGrath SP, Blike GT. Impact of pulse oximetry surveillance on  rescue events and intensive care unit transfers: a before-and-after concurrence  study. Anesthesiology. 2010;112(2):282-287. 


Jarzyna  D, Jungquist CR, Pasero C, et al. American Society for Pain Management Nursing  guidelines on monitoring for opioid-induced sedation and respiratory  depression. Pain Manag Nurs. 2011;12(3):118-145 e110. 


Izrailtyan  I, Qiu J, Overdyk FJ, Erslon M, Gan TJ. Risk factors for cardiopulmonary and  respiratory arrest in medical and surgical hospital patients on opioid  analgesics and sedatives. PLoS One. 2018;13(3):e0194553. 


Dahan  A, Aarts L, Smith TW. Incidence, reversal, and prevention of opioid-induced  respiratory  depression. Anesthesiology. 2010;112(1):226-238.


Sun  Z, Sessler DI, Dalton JE, et al. Postoperative Hypoxemia Is Common and  Persistent: A Prospective Blinded Observational Study. Anesth  Analg. 2015;121(3):709-715. 


Cashman  JN, Dolin SJ. Respiratory and haemodynamic effects of acute postoperative pain  management: evidence from published data. British Journal of  Anaesthesia. 2004;93(2):212-223. 


Lee  LA, Caplan RA, Stephens LS, et al. Postoperative opioid-induced respiratory  depression: a closed claims  analysis. Anesthesiology.2015;122(3):659-665.


Overdyk  FJ, Carter R, Maddox RR, Callura J, Herrin AE, Henriquez C. Continuous  oximetry/capnometry monitoring reveals frequent desaturation and bradypnea  during patient-controlled analgesia. Anesth  Analg. 2007;105(2):412-418. 


Stites  M, Surprise J, McNiel J, Northrop D, De Ruyter M. Continuous Capnography Reduces  the Incidence of Opioid-Induced Respiratory Rescue by Hospital Rapid  Resuscitation Team. J Patient Saf. 2017.


Overdyk  FJ, Dowling O, Marino J, et al. Association of Opioids and Sedatives with  Increased Risk of In-Hospital Cardiopulmonary Arrest from an Administrative  Database. PLoS One. 2016;11(2):e0150214. 


Lam  T, Nagappa M, Wong J, Singh M, Wong D, Chung F. Continuous Pulse Oximetry and  Capnography Monitoring for Postoperative Respiratory Depression and Adverse  Events: A Systematic Review and Meta-analysis. Anesth  Analg. 2017;125(6):2019-2029.