Estimating teat canal cross-sectional area to determine the effects of teat-end and mouthpiece chamber vacuum on teat congestion

J F Penry; J Upton; G A Mein; M D Rasmussen; I Ohnstad; P D Thompson; D J Reinemann

doi:10.3168/jds.2016-11533

Estimating teat canal cross-sectional area to determine the effects of teat-end and mouthpiece chamber vacuum on teat congestion

J Dairy Sci. 2017 Jan;100(1):821-827. doi: 10.3168/jds.2016-11533. Epub 2016 Nov 9.

Authors

J F Penry¹, J Upton², G A Mein³, M D Rasmussen⁴, I Ohnstad⁵, P D Thompson⁶, D J Reinemann⁶

Affiliations

¹ Department of Dairy Science, University of Wisconsin-Madison, Madison 53705. Electronic address: penry@wisc.edu.
² Animal and Grassland Research and Innovation Centre, Teagasc Moorepark Fermoy, Co. Cork, Ireland P61P302.
³ Scientific consultant, Werribee South, Australia 3030.
⁴ Department of Engineering, Aarhus University, Denmark, 8000.
⁵ The Dairy Group, Taunton, United Kingdom TA12PX.
⁶ Department of Biological Systems Engineering, University of Wisconsin-Madison, Madison 53705.

PMID: 27837986
DOI: 10.3168/jds.2016-11533

Abstract

The primary objective of this experiment was to assess the effect of mouthpiece chamber vacuum on teat-end congestion. The secondary objective was to assess the interactive effects of mouthpiece chamber vacuum with teat-end vacuum and pulsation setting on teat-end congestion. The influence of system vacuum, pulsation settings, mouthpiece chamber vacuum, and teat-end vacuum on teat-end congestion were tested in a 2×2 factorial design. The low-risk conditions for teat-end congestion (TEL) were 40 kPa system vacuum (Vs) and 400-ms pulsation b-phase. The high-risk conditions for teat-end congestion (TEH) were 49 kPa Vs and 700-ms b-phase. The low-risk condition for teat-barrel congestion (TBL) was created by venting the liner mouthpiece chamber to atmosphere. In the high-risk condition for teat-barrel congestion (TBH) the mouthpiece chamber was connected to short milk tube vacuum. Eight cows (32 quarters) were used in the experiment conducted during 0400 h milkings. All cows received all treatments over the entire experimental period. Teatcups were removed after 150 s for all treatments to standardize the exposure period. Calculated teat canal cross-sectional area (CA) was used to assess congestion of teat tissue. The main effect of the teat-end treatment was a reduction in CA of 9.9% between TEL and TEH conditions, for both levels of teat-barrel congestion risk. The main effect of the teat-barrel treatment was remarkably similar, with a decrease of 9.7% in CA between TBL and TBH conditions for both levels of teat-end congestion risk. No interaction between treatments was detected, hence the main effects are additive. The most aggressive of the 4 treatment combinations (TEH plus TBH) had a CA estimate 20% smaller than for the most gentle treatment combination (TEL plus TBL). The conditions designed to impair circulation in the teat barrel also had a deleterious effect on circulation at the teat end. This experiment highlights the importance of elevated mouthpiece chamber vacuum on teat-end congestion and resultant decreases in CA.

Keywords: congestion; peak milk flow; pulsation; teat barrel; teat end; vacuum.

MeSH terms

Animals
Cattle
Combined Modality Therapy
Dairying / instrumentation*
Dairying / methods
Female
Lactation
Mammary Glands, Animal / physiology
Mammary Glands, Animal / physiopathology*
Milk Ejection / physiology
Vacuum