Kosmos 1667

Soviet spacecraft aimed at biological experiments in space

Kosmos 1667 / Bion 7
Spacecraft properties
A Bion spacecraft
Names	Bion 7 Biocosmos 7 Biokosmos 7

Mission type	Bioscience
Operator	Institute of Biomedical Problems
COSPAR ID	1985-059A ^[1]
SATCAT no.	15891
Mission duration	7 days


Spacecraft	Bion 7
Spacecraft type	Bion
Manufacturer	TsSKB
Launch mass	5,700 kg (12,600 lb)


Start of mission
Launch date	10 July 1985, 03:15:00 UTC
Rocket	Soyuz-U 11A511U s/n B15000-453
Launch site	Plesetsk, Site 41/1^[2]
Contractor	TsSKB


End of mission
Recovered by	Soviet Space Forces
Landing date	17 July 1985, 00:00 UTC
Landing site	Kazakhstan, Soviet Union


Orbital parameters
Reference system	Geocentric orbit^[3]
Regime	Low Earth orbit
Perigee altitude	222 km (138 mi)
Apogee altitude	297 km (185 mi)
Inclination	82.30°
Period	90.00 minutes

Bion programme ← Bion 6 Bion 8 →

Kosmos 1667 (Russian: Космос 1667 meaning Kosmos 1667), or Bion 7 was a 1985 biomedical research mission satellite involving scientists from nine countries. It was part of the Bion program. This mission was the scientific participation of nine countries (Bulgaria, Czechoslovakia, East Germany, France, Hungary, Poland, Romania, Soviet Union and United States).

Mission

Kosmos 1667 was the second U.S.S.R. biosatellite mission with a primate payload. Although the American experiment on the Kosmos 1667 mission was meant to be a repeat of the Kosmos 1514 cardiovascular experiment, several improvements were implemented on this mission. Modified post-surgery animal handling procedures minimised the risk of damaging the transducer implants. Data was sampled and recorded more frequently during the inflight period. Two monkeys with flight-type cardiovascular instrumentation were studied in a ground-based synchronous control experiment; postflight cardiovascular tests were not conducted after Kosmos 1514. Postural tilt tests were conducted during the pre-flight and post-flight periods in several animals to establish a ground-based pool of normal data for this procedure. This data was compared with the similar body fluid shifts thought to occur in flight. Instrument calibration procedures were modified on this mission to ensure that blood pressure measurements would be accurate.

The main objective of American participation in the Kosmos 1667 mission was to measure carotid artery pressure and blood flow during the inflight period. The United States provided all flight and ground support instrumentation for this experiment. Raw analogue data from flight and ground control experiments was transferred to the Cardiovascular Research Laboratory at the NASA Ames Research Center for analysis. Hemodynamic data was to be correlated with concurrently recorded Soviet data. A similar correlative study was performed during the Cosmos 1514 mission, where blood flow velocity was compared to total body cardiac output as determined by impedance cardiography. Two rhesus macaques (Macaca mulatta) named Gordyy and Oomka were flown on board the biosatellite. Each animal weighed approximately 4 kg (8.8 lb). Both were instrumented for Soviet neurophysiology studies. The instruments consisted of bilaterally implanted microelectrodes in the vestibular nuclei, and electro-oculogram and electroencephalogram electrodes. Monkeys were housed in Soviet biosatellite capsules, as for the Kosmos 1514 mission. United States hardware developed for the Kosmos 1514 cardiovascular experiment was used again on this mission. A barometric pressure recorder mounted in the primate capsule was used to correct and normalise the implanted pressure sensor to 760 mm Hg.^[4]

They were also taken ten male rats, and ten newts. The newts had part of their front limbs amputated and their crystalline lenses removed to study the possible rate of human recovery from injuries incurred in space. A biocalorimeter monitored energy exchange during the emergence of flies from nymphs; 1500 drosophila flies were carried for this purpose. The payload also included maize seeds, crocuses, and guppies in an aquarium.^[1]

The mission was recovered after seven days. on 17 July 1985.^[1]

References

^ ^a ^b ^c "Display: Bion 7 1985-059A". NASA. 14 May 2020. Retrieved 17 January 2021. This article incorporates text from this source, which is in the public domain.
^ Gunter Krebs. "Bion (12KS)". Gunter's Space Page. Retrieved 17 January 2021.
^ "Trajectory: Bion 7 1985-059A". NASA. 14 May 2020. Retrieved 17 January 2021. This article incorporates text from this source, which is in the public domain.
^ Mark Wade Cosmos 1667 Archived 27 March 2016 at the Wayback Machine Astronautix.com Retrieved 17 January 2021

Bibliography

Kozlov, D. I. (1996), Mashnostroenie, ed.; Konstruirovanie avtomaticheskikh kosmicheskikh apparatov, Moscow, ISBN
Melnik, T. G. (1997), Nauka, ed.; Voenno-Kosmicheskiy Sili, Moscow, ISBN
"Bion' nuzhen lyudyam", Novosti Kosmonavtiki, (6): 35, 1996

External links

NASA

Bion/Bion-M satellites

Bion precursor flight

Kosmos 110 (carried two dogs, Veterok and Ugolyok)

Bion flights

Bion 1 (605)
Bion 2 (690)
Bion 3 (782)
Bion 4 (936)
Bion 5 (1129)
Bion 6 (1514)
Bion 7 (1667)
Bion 8 (1887)
Bion 9 (2044)
Bion 10 (2229)
Bion 11

Bion-M

(Kosmos number in brackets)

v t e ← 1984 Orbital launches in 1985 1986 →
January	STS-51-C (USA-8)
February	USA-9 Arabsat-1A Brasilsat A1
March	Geosat Intelsat VA F-10
April	STS-51-D (Anik C1, Leasat 3) STS-51-B (Nusat)
May	GStar-1 Telecom 1B
June	Soyuz T-13 STS-51-G (Morelos 1, Arabsat-1B, Telstar 3D, SPARTAN-101) Progress 24 Intelsat VA F-11
July	Giotto Kosmos 1669 STS-51-F (PDP)
August	STS-51-I (Aussat A1, ASC-1, Leasat 4)
September	Spacenet 3 Soyuz T-14 Kosmos 1686 Intelsat VA F-12
October	STS-51-J (USA-11, USA-12) USA-10 STS-61-A (GLOMR)
November	STS-61-B (Morelos 2, Aussat A2, Satcom K2, OEX, EASE/ACCESS)
Unknown month	Sakigake Kosmos 1616 Kosmos 1617 Kosmos 1618 Kosmos 1619 Kosmos 1620 Kosmos 1621 Kosmos 1622 Molniya-3 No.36 Kosmos 1623 Kosmos 1624 Gorizont No.21L Kosmos 1625 Kosmos 1626 Kosmos 1627 Kosmos 1628 Meteor-2 No.13 Kosmos 1629 Kosmos 1630 Kosmos 1631 Kosmos 1632 Kosmos 1633 Kosmos 1634 Kosmos 1635 Kosmos 1636 Kosmos 1637 Kosmos 1638 Kosmos 1639 Kosmos 1640 Kosmos 1641 Kosmos 1642 Ekran No.28L Kosmos 1643 Kosmos 1644 Unnamed Kosmos 1645 Kosmos 1646 Kosmos 1647 Kosmos 1648 Prognoz 10 Kosmos 1649 Kosmos 1650 Kosmos 1651 Kosmos 1652 Kosmos 1653 Kosmos 1654 Molniya-3 No.39 Kosmos 1655 Kosmos 1656 Kosmos 1657 Kosmos 1658 Kosmos 1659 Kosmos 1660 Kosmos 1661 Kosmos 1662 Kosmos 1663 Unnamed Kosmos 1664 Kosmos 1665 Kosmos 1666 Kosmos 1667 Kosmos 1668 Molniya-3 No.37 Kosmos 1670 Kosmos 1671 Transit-O 24 Transit-O 30 Kosmos 1672 Kosmos 1672 Kosmos 1673 Kosmos 1674 Gran' No.26L Kosmos 1675 Kosmos 1676 Suisei Molniya-1 No.61 Kosmos 1677 Unnamed Kosmos 1678 Kosmos 1679 Kosmos 1680 Kosmos 1681 ECS-3 Kosmos 1682 Kosmos 1683 Kosmos 1684 Kosmos 1685 Kosmos 1687 Kosmos 1688 Kosmos 1689 Molniya-3 No.38 Kosmos 1690 Kosmos 1695 Kosmos 1692 Kosmos 1693 Kosmos 1694 Kosmos 1691 Kosmos 1696 Fanhui Shi Weixing 8 Kosmos 1697 Kosmos 1698 Molniya-1 No.73 Unnamed Meteor-3 No.2 Kosmos 1699 Kosmos 1700 Molniya-1 No.56 Kosmos 1701 Kosmos 1702 Gran' No.28L Kosmos 1703 Kosmos 1704 Kosmos 1705 Kosmos 1706 Kosmos 1707 USA-13 USA-14 Kosmos 1708 Kosmos 1709 Molniya-3 No.40 Kosmos 1710 Kosmos 1711 Kosmos 1712 Meteor-2 No.14 Kosmos 1713 Kosmos 1714
Payloads are separated by bullets ( · ), launches by pipes ( \| ). Crewed flights are indicated in underline. Uncatalogued launch failures are listed in italics. Payloads deployed from other spacecraft are denoted in (brackets).