Boehringer Laboratories

Boehringer Laboratories, LLC. is a family owned American medical technology company with headquarters in Phoenixville, Pennsylvania. Boehringer has introduced innovations in respiratory therapy and minimally invasive surgery, earning US and foreign patents.

Boehringer Laboratories, LLC.
Company typePrivate
IndustryMedical devices, Medical technology
Headquarters,
ProductsRespiratory Therapy, Autologous Blood Recovery, Suction Controls and Minimally Invasive Surgery
Websitewww.boehringerlabs.com,

Market segments

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Boehringer operates in 5 market segments:[1]

  • Anesthesia Products
  • Suction Controls
  • Minimally Invasive Surgery
  • Respiratory Therapy
  • Autotransfusion

History

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Boehringer is a FDA-registered medical device company located in Phoenixville, PA founded by Jack Boehringer in 1972. The company initially released a line of anesthesia and respiratory care instruments, followed by suction regulators and autologous blood transfusion products. In 2007 Boehringer introduced the Engenex product line, entering the negative pressure wound therapy market. In 2010 Boehringer moved from Norristown, PA to Phoenixville, PA. In 2013 Boehringer received clearance for ViSiGi 3D gastric sizing tube for single patient use. This is the first FDA-approved calibration system intended for sleeve gastrectomy. The world's first and only 4-mode suction regulator was introduced in 2015.

Boehringer spirometers were selected by the American Medical Research Expedition to Everest. They were used on the expedition to measure the effects of altitude on respiratory function.[2] The spirometers have been used to measure control of ventilation related to high-altitude pulmonary edema,[3] to determine the efficacy of pharmaceutical treatments for acute mountain sickness,[4] and to determine the efficacy of mechanical treatments for mountain sickness.[5] Boehringer spirometers have also been used in hospital studies, typically related to anesthesia and patient monitoring.[6]

Boehringer Inspiratory Force Meters with memory have been used in predicting the efficacy of neonate extubation[7] and identifying the number of maneuvers required to accurately measure maximal inspiratory mouth pressure in patients with chronic airflow obstruction.[8]

References

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  1. ^ "Boehringer Laboratories Inc - Company Profile and News". Archived from the original on February 11, 2010.
  2. ^ West JB; Boyer SJ; Graber DJ; Hackett PH; Maret KH; Milledge JS; Peters RM; Pizzo CJ; Samaja M; Sarnquist FH; Schoene RB; Winslow Rm (1983). "Maximal exercise at extreme altitudes on Mount Everest". Journal of Applied Physiology. 55 (3): 688–698. doi:10.1152/jappl.1983.55.3.688. hdl:2434/176393. PMID 6415008.
  3. ^ Hackett PH, Roach RC, Schoene RB, Harrison GL, Mills WJ (1988). "Abnormal control of ventilation in high-altitude pulmonary edema". Journal of Applied Physiology. 64 (3): 1268–1272. doi:10.1152/jappl.1988.64.3.1268. PMID 3366741.
  4. ^ Grissom CK, Roach RC, Hackett PH, Sarnquist FH (1992). "Acetazolamide in the Treatment of Acute Mountain Sickness: Clinical Efficacy and Effect on Gas Exchange". Annals of Internal Medicine. 116 (6): 461–465. doi:10.7326/0003-4819-116-6-461. PMID 1739236. S2CID 1731172.
  5. ^ King SJ, Greenlee RR (1990). "Successful use of the Gamow Hyperbaric Bag in the treatment of altitude illness at Mount Everest". Wilderness & Environmental Medicine. 1 (3): 193–202. doi:10.1580/0953-9859-1.3.193.
  6. ^ Bashein G, Russell AH, Momii ST (1986). "Anesthesia and remote monitoring for intraoperative radiation therapy". Journal of Applied Physiology. 64 (6): 804–807. doi:10.1097/00000542-198606000-00023. PMID 3717646.
  7. ^ Shoults D, Clarke TA, Benumof JL, Mannino FL (1979). "Maximum inspiratory force in predicting successful neonate tracheal extubation". Critical Care Medicine. 7 (11): 485–486. doi:10.1097/00003246-197911000-00001. PMID 487844.
  8. ^ Fiz JA, Montserrat JM, Picado C, Plaza V, Agusti-Vidal A (1989). "How many manoeuvres should be done to measure maximal inspiratory mouth pressure in patients with chronic airflow obstruction?". Thorax. 44 (5): 419–421. doi:10.1136/thx.44.5.419. PMC 461850. PMID 2763242.
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